my friend, henry eyring

2638 The Journal of Physical Chemistry, Vol. 87, No. 15, 1983

My Friend, Henry Eyring

Henry Eyring was a dominant figure in physical chemistry for five decades. Although best known for his transition-state theory of chemical kinetics, he was probably unique in modern times in the breadth of his interests and research. His book, “Quantum Chemistry”, published in 1944, was the first book in English to use the phrase quantum chemistry in its title and remains a standard text to this day. I recall that, as an undergraduate in mathematics and physics at the University of British Columbia, I enquired of F. A. Kaempffer, a physics professor, which book he would recommend as an introduction to group theory for a physicist. His immediate reply was Eyring, Walter, and Kimball.

“Quantum Chemistry” was not only a pedagogical success, it incorporated Eyring’s own original contributions to Quan- tum Chemistry. Henry was also active in statistical mechanics, rheology, metallurgy, geology, and biology. Although the author of over 600 scientific papers, he was motivated pri- marily by his desire to understand the universe about him. He often stated that “the approval of molecules is much more important than the approval of one’s peers”.

Henry Eyring was born on February 20, 1901 in Colonia JuBrez, a Mormon colony, in the state of Chihuahua, Mexico. He was the third child and first son of Edward Christian Eyring and Caroline Romney Eyring who were of German and English parentage, respectively. Henry’s grandparents had moved from the United States to Mexico in the 1880’s. The Eyrings and Romneys were large families. Henry claimed to have over 200 cousins.

The Eyrings had acquired Mexican citizenship and so Henry was born a Mexican citizen. At the time they thought that they had also retained their United States citizenship. I t was not until the 1930’s that Henry learned that he was not a US . citizen. I t has always been something of a puzzle to me that the Mexican scientific community was largely unaware that Henry was one of them, especially as he was proud of his Mexican origins and frequently told stories of his youth as a Mexican ranchero, complete with Mexican songs learned in his youth.

The Eyrings were well-to-do ranchers with 14 000 acres of range and pasture and several hundred head of cattle. Henry spent a happy childhood, mostly on the back of a horse. He claims to have learned to ride before he learned to walk. The Eyring family tells the story of Henry being placed on his father’s horse a t the end of the day while his father led the horse to a stream to drink. After drinking, the horse shook himself and Henry fell into the stream. After being rescued, he immediately insisted on being place back on the horse, giving an early indication of the determination which characterized his life.

The Mexican revolution abruptly changed the Eyring family circumstances. The Mormon colonists in Northern Mexico were “gringos” and obvious targets during the decade of chaos. In 1912, it was decided to evacuate the colonists to El Paso, about 100 miles north. Much to Henry’s disgust, he was sent off with the women and children who preceded the men.

Since it was expected that the colonists would be able to return within a short time, nearly everything was left behind. As it turned out, the Eyring’s spent a year in El Paso in difficult circumstances. He worked as a cash boy in a department store to help with the family finances. He was paid $2.00 for a 6-day week. After a year of waiting in El Paso for peace to come to Mexico, the Eyrings moved to Arizona, eventually settling into humble circumstances on a partially cleared farm in Pima, in southeastern Arizona. Long hours were spent clearing mesquite from the land before the farm could become productive.

Despite these interruptions, Henry excelled in school. He was once punished for misbehavior by being required to re- main after school and memorize ten verses of Gray’s “Elegy”. Much to the chagrin of the teacher, he memorized the entire poem and insisted on reciting it verse after verse to the teacher who wished to leave.

On graduation from high school he was awarded a schol-

arship to the University of Arizona. This coupled with what he earned assisting in classes and waiting on tables enabled him not only to pay for his education but also to send money home.

On arrival at the University of Arizona he found that he was expected to wear a green freshman “beanie”. Failure to do so resulted in punishment handed out by the sophomores. Since Henry could outrun his tormentors, he refused to wear his beanie. On one occasion he was chased back to his dor- mitory room and locked himself in. His pursuers were per- sistent and threatened to break down the door. Fearing that he would have to pay for the damage, Henry emerged and received his punishment.

In 1923, Henry graduated with a degree in mining engineering. Previous summers spent working in a mine had convinced him that a safer career was desirable. Thus, he returned to the University of Arizona and graduated with a masters degree in metallurgy in 1924.

Following graduation he worked as a metallurgist in a copper smelter and was assigned to take samples from the blast furnaces. One day, while he was in the smelter with a handkerchief soaked in baking soda over his face attempting to avoid asphyxiation from the sulfur dioxide fumes, the su- perintendent passed by and slapped him on the shoulder and told that he was so pleased with his work that he planned to put him in charge of the blast furnaces. Henry resigned and returned to the University of Arizona as an instructor in chemistry.

In 1925 Henry went to Berkeley and obtained his Ph.D. in chemistry in 1927. He worked with Professor G. E. Gibson on the ionization and stopping power of various gases for a-particles.

He continued these studies at the University of Wisconsin where he became an instructor in chemistry. During this year he met and courted Mildred Bennion, a University of Utah faculty member on leave. They were married in the summer of 1928 and during his 40 years of marriage had three sons, Edward, Henry B., and Harden. Henry courted Mildred on Lake Mendota using a canoe which he had purchased for that purpose. Once they were engaged, Henry, feeling that his canoe had served its purpose, promptly sold it.

During his second year at Wisconsin, Henry was a full-time research associate of Farrington Daniels studying the decomposition of N205 in a wide variety of solvents. Thus, began an active interest in kinetics which lasted all his life.

I t is interesting to note that Henry spent his second year at Wisconsin working on kinetics because his contract had been terminated. Henry claimed that his was the result of unfavorable comparison which he made between the chemistry departments of the Universities of California and Wisconsin. He later came to feel that his comments reflected more upon the brashness of youth than upon the qualities of the Univ- ersity of Wisconsin. His comments may also have been sim- ulated by the fact that his first duty a t Wisconsin was to varnish a laboratory floor. Henry spent all weekend varnishing the floor. One Monday the chairman, Professor Matthews, told Henry that the floor looked fine and inquired as to when the second coat would be applied. I t was then that Henry shared his evaluation of the Wisconsin chemistry department with the chairman.

It is interesting to reflect upon the effects of such incidents on the lives of people. Henry might well have pursued a career in nuclear or particle physics but now found himself drawn to chemical kinetics.

In 1929 he was awarded the National research fellowship to work with Professor Bodenstein of the University of Berlin. Henry claimed that this was in part due to the enthusiastic recommendation of Professor Matthews who saw this a way of ridding himself a problem.

Before departure for Germany, Eyring found that Professor Bodenstein would be away on leave. Instead, Henry went to the Kaiser-Wilhelm Institute in Berlin to work with Michael Polanyi. During that year, they calculated the potential energy

The Journal of Physical Chemistry, Vol. 87, No. 75, 1983 2638

densities of the coexisting vapor and liquid phases. Although this picture of a liquid has been the subject of controversy, Eyring was one of the first to see the importance of volume changes in determining the properties of a fluid.

WhiIe a t Princeton, Eyring and Kimball began (in 1933!) a book on Quantum Chemistry. The book was not published until 1944. In the intervening decade, John Walter had become a coauthor. I t is amusing to note that Kimball and Walter never met. I have already commented on the significance of this book, “Quantum Chemistry”, which has been reprinted over 20 times and has been translated into several languages.

Studies of optical rotation and bioluminescence also occupied Henry’s attention during his Princeton years. His studies of rate processes in biology occupied much of the rest of his life.

His relations with his graduate students were cordial. Two students, George Halsey and Howard White, knowing Henry’s devote religious conventions hid themselves in a closet in Henry’s office and called out ”Henry, this is the angel Moroni, prepare to meet your fate”. Henry’s instant reply was, ”George and Howard, get out of there”.

Halsey was himself a colorful personality. Henry fondly told a number of annecdotes involving his association with Halsey. Space does not permit me to relate them. However, one more is of interest. In addition to being a professor of chemistry, Henry became, in 1944, the director of the Textile Research Institute which was located on the shores of Carnegie Lake with extensive grounds and unpaved roads. One day a delivery truck from the Pennsylvania Railroad became stuck. The driver was evidently unconcerned. This only meant that he would receive overtime. Henry brought all of his students out to rescue the driver. While the driver way lying on the grass, Henry was laboring with a shovel attempting to dig out the truck. Halsey saw no sense in this and said, “Henry this is pointless. The driver doesn’t care. I am not going to work a t this”. In anger, Henry pickup up the shovel and said, “George, if you don’t go home immediately, I am going to hit you with this shovel”. Naturally, Halsey left. However, within an hour, he received a call from Eyring who said, “George, let’s get back to work on our paper”.

While returning one evening from a meeting in New York, Henry became so engrossed in conversation that he missed the Princeton station and had to travel to the next station. Taking the next train back, he missed the Princeton station once again. He had to have the engineer stop the train and back it into the Princeton station so that he could get off. I t was morning before he finally got back to Princeton.

In 1935 Henry acquired the United States Citizenship that he had thought had been his since birth. He took out his papers with a judge in Trenton, New Jersey who had recently naturalized Albert Einstein. When the judge found that Henry also was a faculty member at Princeton he became so interested telling Henry about his earlier experience with Einstein that Eyring was unable to demonstrate his consti- tutional expertise.

As his children approached their teens, Eyring sensed that his family’s need would be better served in the West where they could be nearer the center of their Mormon faith. In 1946 he went to the University of Utah as professor of chemistry and Dean of the newly founded Graduate school. He continued as Graduate Dean for 20 years until his retirement from administrative duties in 1966. While Graduate Dean his enthusiasm for teaching and research continued unabated. The office of the Graduate School was converted into a classroom and research seminar room. Following his retirement from administrative duties he became Distinguished Professor of Chemistry at the University of Utah.

During the Utah years he expanded upon his earlier interests. For example, his picture of a liquid was formalized into the significant structure theory of liquids. His interest in kinetics led him to theories of aging and the effects of stress on living cells. This latter interest was possibly occasioned in part by his own problems with cancer in later years.

Henry was beloved not only by his colleagues but also by the students to whom he was always accessible whether for

surface for three interacting hydrogen atoms. Their method was interesting because they found that a purely theoretical method involving Heitler-London-Sugiura coulombic and exchange integrals gave disappointing results but the spec- troscopic values of the bonding energy, coupled with the ap- portionment between coulombic and exchange terms suggested by the theory, was much more satisfactory. This judicious combination of theory and empirical results became a characteristic of much of Henry’s work.

While in Germany, he received word that the State De- partment had ruled that his brother, and thus he also, was not a citizen of the United States. This meant that he was in Germany with a passport and a fellowship to which he was not entitled. Fortunately, the American consul ruled that he had acted in good faith and that he should continue his stay in Berlin but on return to the United States should turn in his passport and apply for naturalization.

On return from Berlin, Henry spent a year back at Berkeley as a lecturer in chemistry. During this year he studied the- oretically the kinetics of hydrogen-halogen reactions and concluded that hydrogen and fluorine molecules were not very reactive, a conclusion a t variance with the accepted forklore. Henry reported these results at the American Chemical So- ciety in Indianapolis in 1931. Professor Hugh Taylor, chairman of the Princeton University chemistry department, was in the audience and was aware of recent experimental findings of van Wartenburg and J. Taylor that this system was indeed not very reactive. Taylor invited him to go to Princeton and give two lectures. This visit led to an invitation to join the Princeton Faculty.

Henry continued his interests in chemical kinetics during his 15 years at Princeton where he eventually became professor of chemistry. The task of calculating the potential energy surface for more than four electrons was straightforward but tedious in those days before the development of digital com- puters. One morning, Henry invited a colleague to collaborate with him on the five-electron problem. The reply was negative, the colleague stating they would never live long enough to finish the problem. Henry’s response was characteristic, “that’s true if we don’t learn anything while we are working on the problem”. Henry plunged in and in 1933 he and a student, George Kimball, published a quick way of getting the secular equation for any number of electrons.

Joseph Hirschfelder and he used these surfaces to calculate trajectories for hydrogen reactions. Before the digital com- puter such calculations were extremely tedious. Hirschfelder had to solve Newton’s equations numerically using a mechanical calculator. Each point on the surface required about 20 minutes. Hirschfelder calculated one trajectory and Henry was excited. He asked Hirschfelder to calculate a second trajectory. Hirschfelder replied that if he wanted any more trajectories he could calculate them himself. According to Henry, he replied that Hirschfelder was ready to write up his thesis. Hirschfelder’s recollection is slighly different. He says that he only wished that that was Henry’s reply but that for once Henry was speechless.

In 1935 Henry developed his concept of the “activated” complex a t the height of the potential energy barrier in the potential energy surface of the reacting molecules. He suggested that the rate of reaction was a product of the concentration Cz of activated complexes at the top of the barrier multiplied by the frequency of crossing the barrier. This leads to the revolutionary equation

rate of reaction = Ct(kT/h) The frequency of crossing the barrier is the universal con-

stant kT /h independent of the nature of the reactants and type of reaction. In the ensuring years many time-dependent processes, such as viscosity, diffusion, plasticity, and electrical conduction, fell magically under the spell of kT/h.

An interest in chemical reactions led to an interest in liquids. At Princeton he pictured a liquid as consisting of “solidlike” arrays of molecules and more mobile molecules whose “gaslike” particles are conferred by the presence of large numbers of vacancies in the liquid “Structure”. On this basis he was able to explain the near constancy of the sum of the

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research discussions or for personal advice. His enthusiastic good humor became a legend. In an annual footrace a t the University of Utah he would race any challengers in a 50-yard dash. He didn’t win but he didn’t finish last either. This footrace started modestly but later became famous and very elaborate, involving cheerleaders and the university stadium. It was featured once on the CBS National News.

One other athletic feat of which Henry was proud was a standing jump from the floor to the top of his desk. This he performed for anyone who would watch until his early sixties. One day he didn’t quite make the top of his desk and painfully hurt his knees. To the best of my knowledge, this ritual was then discontinued.

My own contact with Henry started when he visited the University of British Columbia, where I was an undergraduate, and lectured. I t appeared, to me a t least, that during the question period that for each question only two people un- derstood the question, Henry and the poser of the question.

I started to work, under his direction, on my thesis in 1959. His capacity for work was enormous. He worked Saturdays and would have worked Sundays if it were not for his religions convictions. Lectures were held on Saturdays and on holidays. Henry believed in honoring George Washington by working. I recall having to attend his statistical mechanics lectures on the Friday after Thanksgiving, 1959.

During my first year of research I was married. Prior to my marriage, Henry gave me what he felt was the most val- uable advice that he could give a young married man. His advice was that I should never acquire a piece of property that was bigger than my wife could look after. I have not always been able to follow this sage advice but am heartened by the fact that he also failed on occasion to follow this advice. I saw him from time to time working in his yard. In fact, I believe that in the latter years he found some satisfaction in gardening.

Henry was loyal toward his students. I recall one student who told me of his thesis defense. One member of the committee attacked the research on subjective grounds. After enduring this for some time, Henry obtained a copy from his library of the Ph.D. thesis of the belligerent faculty member and said, “Why don’t we look at your thesis and decide what we think of it”. The faculty member immediately became reasonable and stated that he thought the candidate should receive his degree.

Henry received many high honors. He was president of the American Chemical Society and the American Association for the Advancement of Science. He was a member of the Na- tional Academy of Science and an honorary member of the Royal Society of Chemistry. He received numerous prizes and awards, including the National Medal of Science, the Priestly and Gibbs Medals, as well as honorary degrees from numerous American and foreign universities. Two prizes of which he was particularly proud were the Wolf Prize and the Berzelius Medal. He described the selection committee for the Wolf Prize as consisting two Nobel Prize winners and a third person who deserved one. I was in his office in 1976 when he received word of his being the recipient of the Berzelius Medal. He was pleased to note that it was awarded only once every 50 years.

Those who knew Henry only superficially thought of him as a modest man. This was not so. He was deservedly proud of his achievements. But he was unfailingly tolerant of and courteous to those who disagreed with him. In 1976 when we collaborated on the second edition of “Statistical Mechanics and Dynamics”, I asked him how much significant structure

The Journal of Physical Chemistry, Vol. 87, No. 15, 1983

theory he wanted included in the volume. With a smile he replied, “More than you do”.

His wife, Mildred, became ill in 1964. At first it was hoped that her tumor was benign. Unfortunately, the cancer ran its course remorselessly. She died in 1969. During her illness, Henry cared for her unselfishly. During the final few weeks he moved into the hospital to be constantly at her side. The extent of his unselfishness became apparent only later. I t turned out that while he cared for Mildred he ignored the symptoms of his own cancer.

His own tumor was operated upon in 1969. He thought that he was cured. Unfortunately, this was not to be so. His cancer was only in remission. But a t least he had a decade before it reasserted itself.

In 1971 he married Winnifred Brennan and enlarged his family to include four daughters, Eleanor, Patricia, Joan, and Bernice. I t is typical of Henry’s lack of interest in material possessions that, when Winnifred first met him, she thought that he was poor. It came as a great surprise to her when she learned that he was a famous scientist still employed by the University of Utah.

Their union was a happy one. She accompanied Henry to meetings and attended his lectures, smiling at jokes that she had heard many times before. I recall visiting their home in the fall of 1971. Before setting out for the university, he stated that he could not leave without a kiss. Irrepressive as ever, I replied, ”You’re not getting one from me”. In any case, Winnifred obliged and we departed for work.

In 1980 the University of Utah chemistry building was named after him. At the ceremony Henry spoke and stated that “this is like attending one’s own funeral”.

His last years were characterized by declining health. Despite this he was cheerful and active. When my oldest daughter saw him with a cane and expressed concern, he replied that, “it was for style”. In his last year he collaborated in the writing of three books, supervised the research of his students, and within a few weeks of his death traveled to Houston to attend the meetings of the Welch Foundation on whose board he had served for many years.

One tradition in the Mormon Church is voluntary labor on a welfare farm, the produce from which is used for the needy. Henry insisted on taking his turn until the end. One day his responsibility was weeding and after a while his Bishop found him lying flat on his stomach dragging himself along the row while pulling out the weeds. When the Bishop expressed concern, Henry’s reply was, ”I wish that I had had my wife’s pious upbringing, then my knees should have been stronger”.

His final months were very painful but were made as pleasant as possible by the unselfish support and care of his wife, Winnifred. Fortunately, he died just before the doctors were to start administering massive doses of pain killer and so was spared the final agonies.

At his funeral, the main speaker, Neal A. Maxwell stated that Henry had “taught us to live well and in the end taught us to die well”. In one of his few moments of despair during his final days Henry said, “Why has God done this to me”. The next day he stated that he now knew why. He said, “God is testing me. He wants only strong men in his Kingdom”. Not all of Henry’s colleagues may share Henry’s certainty of an after life. But those who do, know that God does indeed now have a strong man in His Kingdom.

Douglas Henderson


Biographical Notes

Born in Colonia Jubrez, Chihuahua, Mexico, February 20, 1901. B.S., 1923, M.S., 1924, University of Arizona. Ph.D., University of California, Berkeley, 1927. D.Sc. (Honorary): University of Utah, 1952; Northwestern University, 1953; Princeton University, 1956; Seoul National University, 1963; Brigham Young University, 1965; Western Reserve University, 1966; Denison University, 1967; Marquette University, 1969; University of Notre Dame, 1969; University of Arizona, 1971; Utah State University, 1973; University of Paris Sud, 1978; Arizona State University, 1978. LL.D. (Honorary): Indiana Central College, 1964; University of California, Davis, 1966.

Instructor in Chemistry, University of Arizona, 1924-1925. Research Associate in Chemistry, University of Wisconsin, 1928-1929. National Research Fellow, Kaiser- Wilhelm Institute, Berlin, 1929-1930. Lecturer in Chemistry, University of California, Berkeley, 1930-1931. Princeton University: Research Associate Chemistry, 1931-1936; Associate Professor, 1936-1937; Professor, 1938-1946. University of Utah: Professor of Chemistry and Dean of the Graduate School, 1946-1966; Distinguished Professor of Chemistry and Metallurgy, 1966-1981.

American Chemical Society Awards: William H. Nichols Medal (New York Section, 1959); Local Award (Salt Lake Section, 1959); G. N. Lewis Award (California Section, 1963); Peter Debye Award (1964); Irving Langmuir Award (1967); Willard Gibbs Medal (1968); Madison Marshall Award (Northern Alabama Section, 1968); Linus Pauling Medal (Puget Sound Section, 1969); Theodore William Richards Medal (1975); Joseph Priestly Medal (1975).

Other award^ Newcomb Medal ( M S , 1932); University of Arizona Alumni Achievement Award (1947); Research Corporation Award (1949); Bingham Medal (Society of Rheology, 1949 and 1981); John E. Talmage Award (Brigham Young University, 1959); Award of Merit (University of Arizona, 1960); Distinguished Alumni Award (University of Utah, 1961); National Medal of Science (1966); Cresson Medal (Franklin Institute, 1969); William Gardner Award (Utah Academy of Sciences, Arts and Letters, 1973); Joseph Priestly Celebration Award (Dickinson College, 1974); Distinguished Alumni Award (State Board of Community Colleges of Arizona, 1977); Berzelius Medal (Royal Swedish Academy of Sciences, 1979); Wolf Prize in Chemistry (Wolf Foundation, Israel, 1980); Hall of Fame (Marriott, 1981). The Department of Chemistry of the University of Utah is housed in the Henry Eyring Building.

Professional Societies: National Academy of Sciences (1945-1981); American Chemical Society (President, 1963); American Association for the Advancement of Science (President, 1965, Vice-president 1946, Board of Directors, 1961-1966, President Pacific Division 1958); American Academy of Arts and Science, American Philosophical Society, Rheology (Vice-president, 1946); International Academy of Quantum Molecular Science; Deutsche Akademie der Naturforscher; Phi Lambda Upsilon; Sigma Xi; Chemist Club of New York (Honorary Member); Korean Chemical Society (Honorary Member); International Society of Quantum Biology (Honorary President); Royal Society of Chemistry (Honorary Fellow).

Other Service: Member, National Science Board (1962-1968); Board of Directors, Annual Reviews Inc. (1954-1971); Annual Review of Physical Chemistry (Editor, 1956-1975); Member, Advisory Committee of Robert A. Welch Foundation (1954-1981); Member, General Sunday School Board, Church of Jesus Christ of Latter Day Saints (1946-1971).

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1932 1934

1935 1938 1940

1941

1943

1945 1948

1949

1950

1951

1952

1954

1933 1934 1939 1941 1942

The Journal of Physical Chemistty, Vol. 87, No. 15, 1983

Research Collaborators of Henry Eyring

Doctoral Students in Chemistry and Physics George Kimball* Arthur A. Frost* Everett Gorin* John Turkevich* Joseph 0. Hirschfelder* Raymond H. Ewell* Walter J. Kauzmann* Keith J. Laidler* Frederick A. Matsen, Jr.* John Walter* Richard E. Powell* Arthur V. Tobolsky* Robert L. Scott* Howard Tracy Hall George D. Halsey, Jr.* Stephan A. Rossmassler Jay W. Fedrickson Ting-Chang Kwoh Cecil E. Reese Leon Marker Marilyn Grace Adler Marquis Mei Chi0 Chen Charles B. Colburn Peter Gibbs Charles R. Mueller Richard Pearson Smith James Arthur Lasater Edward Lee Nimer J. Calvin Giddings Rudolph Julius Marcus Paul Chadwick Wilhelmsen

Ahlborn Wheeler* Arthur K. Solomon* Edmond M. Irish* Richard B. Simpson* Ira B. Wheeler* Howard J. White*

1955

1956

1957

1958

1959

1960

1961

1962

1963

1964

Jessee Stone Binford, Jr. Haruto P. Kat0 Arthur Louis Ruoff George Donald Blyholder John Gerald Foss Albert Gail Funk Lowell George Tensmeyer Richard Lewis Snow Kang Yang Sang Joon Hahn George Hudson Stewart Kak-Choong Kim Earl Miller Mortensen Charles M. Carlson Seihun Chang Everett Jack Fuller Francis Hayin Ree Teresa Shinhye Ree Chov Harry George Hecht Douglas James Henderson Leon Lloyd Jones Terrell Neils Andersen Andrew Francis Gabrysh Frank M. Wanlass Joel Jacknow Vernon Glen LeFebre Donald Dean-Jau Shieh Kai Liang Sheng-Hsien Lin Shao-mu Ma Dan Wesley Urry

Other Students

1944 Thomas E. Allen* Walter M. Kearns* Robert A. Miller*

1945 Robert H. Clarke* Robert B. Mewobian* Richard C. Myers*

1965

1966

1967

1968

1970 1971

1972

1973 1975 1976 1977 1978 1979

1980 1982

Gilford Arthur Chappell MarLynn Rees James Sook-I1 Kwun Donald Reed McLaughlin Bryant Albert Miner David Wells Wood Donald Denby Bod& Jr. Mu Shik Jhon Masaaki Tamayama Joseph Grosh Daniel Warren Miles Richard Scott Perkins Cheng-Yu Lin Wei-Chen Lu Won-kie Paik Daniel Reuben Boone Kam-Khow Cheong Gary James Clark Gerald Lee Faerber Warren Herschel Inskeep Ji-Yong Ryu Chen Chao Hsu Shuh-Wei Lawrence Wu George Franzen Uhlig An-Lu Leu Dennis William Nielson Douglas L. Miles Sootae Lee Hao-Chou Lin Patrick Kay Redington Yung-Chang Yim Robert Lee Kelley

1954 Ray L. Pearson 1961 Walter Joseph Davis 1964 Onnig Hratch Bezirjian

Lin-Sen Pan

* Princeton University.

Publications of Henry Eyring and Collaborators

1. “The Theory of Rate Processes”, Samuel Glasstone, Keith J. Laidler, and Henry Eyring (Frick Chemical Laboratory, Princeton University), McGraw-Hill, New York, 1941.

2. “Quantum Chemistry”, Henry Eyring, George E. Kim- ball, and John Walter, Wiley, New York, 1944.

3. “Kinetic Basis of Molecular Biology”, Frank H. Johnson, Henry Eyring, and Milton J. Polissar, Wiley, New York, 1954.

4. “Modern Chemical Kinetics”, Henry Eyring and Edward M. Eyring, Reinhold, New York, 1963.

5. “Statistical Mechanics and Dynamics”, Henry Eyring, Douglas Henderson, Betsy J. Stover, and Edward M. Eyring, Wiley, New York, 1964 (2nd ed, 1982).

6. “Significant Liquid Structures”, Henry Eyring and Mu Shik Jhon, Wiley, New York, 1969.

7. ”The Theory of Optical Activity”, Dennis Caldwell and Henry Eyring, Wiley, New York, 1971.

8. “The Theory of Rate Processes in Biology and Medicine”, Frank H. Johnson, Henry Eyring, and Betsy J. Stover, Wiley, New York, 1974.

9. “Kinetics of Deformation”, A. S. Krausz and Henry Eyring, Wiley, New York, 1975.

10. “Basic Chemical Kinetics”, Henry Eyring, Sheng H. Lin. and S. M. Lin, Wiley, New York, 1980.

In addition, updated verisons of “Quantum Chemistry” and “Significant Liquid Structures” were started by Henry Eyring before his death and will be completed by his coauthors.

1. “Ionization and Stopping Power of Various Gases for Alpha-Particles from Polonium: 11”, G. D. Gibson and H. Eyring, Phys. Rev., 30, 553 (1927).

2. “The Straggling of Alpha-Particles from Polonium in Passing through Gases”, H. Eyring, Phys. Rev., 33, 386 (1929).

3. “Molecular Weight of Saturated Vapors by the Effusion Method”, H. Eyring, J . Am. Chem. Soc., 50, 2398 (1928).

4. “A Method for Determining the Viscosity of Corrosive Gases and the Molecular Diameter of Nitrogen Pentoxide”, H. Eyring and G. A. Van Valkenburgh, J . Am. Chem. SOC., 52, 2619 (1930).

5 . “The Decomposition of Nitrogen Pentoxide in Inert Solvents”, H. Erying and F. Daniels, J . Am. Chem. Soc., 52, 1480 (193G.

6. “The Decomposition of Nitrogen Pentoxide in Chem- icallv Active Solvents”. H. Evrine and F. Daniels. J . Am.“Chem. SOC., 52, 1480 (i9307.

7. “Berechnung der Akrivierungsenergie Bimolekularer Reactionen”, H. Eyring, Sonderdruck aus 2. Phys. Chem., Abt. B, 7, Heft 3 (1930).


8. “Verwendung Optischer Daten Zue Berechnung der Aktivierungswarme”, H. Eyring, Sonderdruck aus Naturwissenschaften, 18, Heft 44, 915.

9. “Zur Berechnung der Aktivierungswarme”, H. Eyring and M. Polanyi, Sonderdruck aus Naturwissen- schaften, 18, Heft 44, 914.

10. “Uber einfache Gasreaktionen”, H. Eyring and M. Po- lanyi, Sonderdruck aus 2. Phys. Chem., Abt. B, 12, Heft 4.

11. “The Energy of Activation for Biomolecular Reactions Involving Hydrogen and the Halogens, According to the Quantum Mechanics”, H. Eyring, J . Am. Chem. SOC., 53, 2537 (1931).

12. “The Stability of Nitrogen Pentoxide a t 1000 Atmo- spheres of Oxygen in the Presence of Nitrogen Tetroxide”, L. Lewon and H. Eyring, J . Am. Chem. SOC., 53, 2801 (1931).

13. “Quantum Mechanics and Chemical Reactions”, H. Eyring, Chem. Rev., 10, 103 (1932).

14. “Triatomic Halogen Molecules in Photochemical Reactions”, G. K. Rollefson and H. Eyring, J . Am. Chem. SOC., 54, 170 (1932).

15. “The Resultant Electric Moment of Complex Molecules”, H. Eyring, Phys. Reu., 39, 746 (1932).

16. “Quantum Mechanics of Activated Absorption”, A. Sherman and H. Eyring, J. Am. Chem. SOC., 54,2661 (1932).

17. “Steric Hindrance and Collision Diameters”, H. Eyring, J . Am. Chem. SOC., 54, 3191 (1932).

18. “The Five-Electron Problem in Quantum Mechanics and Its Application to the Hydrogen-Chlorine Reaction”, G. E. Kimball and H. Eyring, J . Am. Chem. SOC., 54, 3876 (1932).

19. “Binding Energies in the Growth of Crystal Nuclei from Metallic Atoms”, H. S. Taylor, H. Eyring, and A. Sherman, J . Chem. Phys., 1, 68 (1933).

20. “Quantum Mechanics and Chemistry with Particular Reference to Reactions Involving Conjugate Double Bonds”, H. Eyring, Science, 77, No. 1989, 158 (1933). (Based on a paper presented before the Section of Chemistry of the American Association for the Ad- vancement of Science at its Atlantic City meeting for which the annual prize of the Association was awarded.)

21. “The Zero Point Energy and the Separation of Isotopes”, H. Eyring, Proc. Natl. Acad. Sci., 19, 78 (1933).

22. “The Quantum Mechanics of Seven and Eight Electrons with Spin Degeneracy”, H. Eyring and G. E. Kimball, J . Chem. Phys., 1, 239 (1933).

23. “The Calculation of Matrix Elements between Bond Eigenfunctions”, H. Eyring and G. E. Kimball, J . Chem. Phys., 1, 626 (1933).

24. ”Theoretical Considerations Concerning the Separation of Isotopes”, H. Eyring and A. Sherman, J . Chem. Phys., 1, 345 (1933).

25. “The Quantum Mechanics of Chemical Reactions In- volving Conjugate Double Bonds”, H. Eyring, A. Sherman, and G. E. Kimball, J. Chem. Phys., 1,586 (1933).

26. “Molecular Symmetry and the Reduction of the Secular Equation”, H. Eyring, A. A. Frost, and J. Turkevich, J . Chem. Phys., 1, 777 (1933).

27. “Technique for the Electrolytic Production of H2H20”, H. S. Taylor, H. Eyring, and A. A. Frost, J . Chem. Phys., 1, 823 (1933).

28. “The Solubility of Salts in H2H20”, H. S. Taylor, E. R. Caley, and H. Eyring, J. Am. Chem. SOC., 55, 4334 (1933).

29. “The Homogeneous Reaction between Hydrogen and Fluorine”, H. Eyring and L. S. Kassel, J. Am. Chem. SOC., 55, 2796 (1933).

30. “Electrolytic Separation of Hydrogen Isotopes and the Mechanism of the Cathode Process”. B. ToDlev and H. Eyring, J. Am. Chem. SOC., 55, 5058 (lb35).

31. “The Separation of the Hydrogen Isotopes by Electrolysis”, Part I, B. Topley and H. Eyring, J .

32.

33.

34.

35.

36.

37.

38.

39.

40.

41.

42.

43.

44.

45.

46.

47.

48.

49.

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51.

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54.

55.

Chem. Phys., 2, 217 (1934). “The New Point of View in Chemistry”, H. Eyring, Sci.

Mon., 39, 415 (1934). “Electrolytic Concentration of the Heavy Hydrogen

Isotope”, B. Topley and H. Eyring, Nature (London), 133, 292 (1934).

”Activation Energies of Reaction Involving Oxygen, I, The Reaction 0 + H2 - HzO”, R. S. Bear and H. Eyring, J. Am. Chem. SOC., 56, 2020 (1934).

“Theoretical and Practical Studies of Atomic and Mo- lecular Forms of the Hydrogen Isotopes”, H. S. Taylor and H. Eyring, Proc. Am. Phil. SOC., 72,255 (1933).

“The Effect of Water Containing the Isotope of Hy- drogen upon Fresh Water Organisms”, H. S. Taylor, W. W. Swingle, H. Eyring, and A. A. Frost, J. Chem. Phys., 1, 751 (1933).

“Resolution of Crossed Bond Eigenfunctions in Terms of the Uncrossed Set”, H. Eyring and C. E. Sun, J . Chem. Phys., 2, 299 (1934).

“Molecular Symmetry and the Reduction of the Secular Equation, Part 11”, A. E. Stern, C. H. Lindsley, and H. Eyring, J . Chem. Phys., 2, 410 (1934).

“The Effect of Water Containing the Isotope of Hy- drogen upon Fresh Water Organisms”, H. S. Taylor, W. W. Swingle, H. Eyring, and A. A. Frost, J . Cell. Comp. Physiol., 4, No. 1 (1933).

“Addition of Symmetrical Diatomic Molecules to Benzene”, A. Sherman, C. E. Sun, and H. Eyring, J . Chem. Phys., 3, 49 (1935).

“The Activated Complex in Chemical Reactions”, H. Eyring, J . Chem. Phys., 3, 107 (1935).

“The Reaction between Vector and Bond Eigenfunction Methods for Spin Degeneracy”, R. S. Bear and H. Eyring, J . Chem. Phys., 3, 98 (1935).

“The Resolution of Bond Eigenfunctions in Terms of a Linearly Independent Set”, H. Eyring and H. Gershinowitz, J. Chem. Phys., 3, 224 (1935).

“The Theory of Trimolecular Reactions”, H. Gershi- nowitz and H. Eyring, J . Am. Chem. SOC., 57, 985 (1935).

“The Absolute Rate of Reactions in Condensed Phases”, W. F. K. Wynne-Jones and H. Eyring, J. Chem. Phys., 3, 492 (1935).

“The Activated Complex and the Absolute Rate of Chemical Reactions”, H. Eyring, Chem. Rev., 17, 65 (1935).

“Nonadiabatic Reactions. The Decomposition of NzO”, A. E. Stern and H. Eyring, J . Chem. Phys., 3, 778 (1935).

“The Absolute Rate of Homogeneous Atomic Reactions”, H. Eyring, H. Gershinowitz, and C. E. Sun, J . Chem. Phys., 3, 786 (1935).

“The Quantum Theory of Activation and Absolute Reaction Rates of Photochemical Processes”, H. Eyring, Cold Spring Harbor Symp. Quant. Biol., 3, 10 (1935).

“I. Calculation of Energy of H3 Molecule”, J. Hirsch- felder, H. Eyring, and N. Rosen, J. Chem. Phys., 4, 121 (1936).

“11. Calculation of Energy of H3 Ion”, J. Hirschfelder, H. Eyring, and N. Rosen, J . Chem. Phys., 4, 130 (1936).

”Reactions Involving Hydrogen Molecules and Atoms”, J. Hirschfelder, H. Eyring, and B. Topley, J . Chem. Phys., 4, 170 (1936).

“The Absolute Rates of Reaction of Hydrogen with the Halogens”, A. Wheeler, B. Topley, and H. Eyring, J . Chem. Phvs.. 4. 178 (1936).

“Viscosity, Plasticity and Diffusion as Examples of Absolute Reaction Rates”, H. Eyring, J. Chem. Phys., . -

4, 283 (1936). “The Theoretical Treatment of Chemical Reactions

Produced by Ionization Processes, Part I. The Or- tho-Para Hvdroeen Conversion bv i%ha-Particles”. H. Eyring, i. O.-Hirschfelder, a i d H. S. Taylor, J . Chem. Phys., 4, 479 (1936).

2644 The Journal of Physical Chemistry. Vol. 87, No. 15, 1983

56. “The Radiochemical Synthesis and Decomposition of Hydrogen Bromide”, H. Eyring, J. 0. Hirschfelder, and H. S. Taylor, J . Chem. Phys., 4, 570 (1936).

57. “Absolute Rates of Four-Atom Reactions”, Wm. Altar and H. Eyring, J. Chem. Phys., 4, 661 (1936).

58. “A Partition Function for Liquids”, R. F. Newton and H. Eyring, Trans. Faraday SOC., 33,73 Part I (1937).

59. “The Theory of the Liquid State”, H. Eyring and J. Hirschfelder, J. Phys. Chem., 41, 249 (1937).

60. “The Deduction of Reaction Mechanism from the Theory of Absolute Rates”, A. E. Stern and H. Eyring, J. Chem. Phys., 5, 113 (1937).

61. “On the Rate of Chemical Reactions”, E. Wigner and H. Eyring, Sci. Mon., 44, 564 (1937).

62. “A Partition Function for Liquid Mercury”, J. F. Kin- caid and H. Eyring, J . Chem. Phys., 5, 587 (1937).

63. “Theory of the Viscosity of Liquids as a Function of Temperature and Pressure”, R. H. Ewe11 and H. Eyring, J. Chem. Phys., 5, 726 (1937).

64. “Calculation of the Energy of Hgn, J. Hirschfelder, H. Diamond, and H. Eyring, J . Chem. Phys., 5, 695 (1937).

65. “One-Electron Rotatory Power”, E. U. Condon, Wm. Altar, and H. Eyring, J. Chem. Phys., 5, 753 (1937).

66. “A Theory of Liquid Structure”, H. Hirschfelder, D. Stevenson, and H. Eyring, J. Chem. Phys., 5, 896 (1937).

67. “The Calculation of Activation Energies”, H. Eyring, Trans. Faraday SOC., 34, 3 Part 1 (1938).

68. “The Theory of Absolute Reaction Rates”, H. Eyring, Trans. Faraday SOC., 34, 41 Part 1 (1938).

69. “Nonadiabatic Reactions. Chemiluminescence”, M. G. Evans, H. Eyring, and J. F. Kincaid, J. Chem. Phys., 6, 349 (1938).

70. “Theory of the Viscosity of Unimolecular Films”, W. J. Moore, Jr., and H. Eyring, J. Chem. Phys., 6, 391 (1938).

71. “Free Volumes and Free Angles Ratios of Molecules in Liquids”, J. F. Kincaid and H. Eyring, J . Chem. Phys., 6, 620 (1938).

72. “The Optical Activity of Secondary Butyl Alcohol”, E. Gorin, J. Walter, and H. Eyring, J . Chem. Phys., 6, 824 (1938).

73. “The Liquid State”, J. F. Kincaid and H. Eyring, J . Phys. Chem., 43, 37 (1939).

74. “The Application of the Theory of Absolute Reaction Rates to Proteins”, H. Eyring and A. E. Stern, Chem. Rev., 24, 2 (1939).

75. “An Elementary Theory of Condensation”, F. Cernuschi and H. Eyring, J . Chem. Phys., 7, 547 (1939).

76. “Internal Rotation and Resonance in Hydrocarbons”, E. Gorin, J. Walter, and H. Eyring, J . Am. Chem. SOC., 61, 1876 (1939).

77. “A New Theory of Overvoltage”, H. Eyring, S. Glasstone, and K. J. Laidler, Electrochemical Society, reprint of a paper presented a t the Seventysixth General Meeting to be held at New York City, 1939.

78. “Reactions Involving Hydrogen and the Hydrocarbons”, E. Gorin, W. Kauzmann, J. Walter, and H. Eyring, J . Chem. Phys., 7, 633 (1939).

79. “Application of the Theory of Absolute Reaction Rates to Overvoltage”, H. Eyring, S. Glasstone, and K. J. Laidler, J . Chem. Phys., 7, 1053 (1939).

80. “A New Theory of Overvoltage”, H. Eyring, S. Glasstone, and K. J. Laidler, Trans. Electrochem. Soc., 76, 331 (1939).

81. ”Pressure and Temperature Effects on the Viscosity of Liquids”, D. Frisch, H. Eyring, and J. F. Kincaid, J . Appl. Phys., 11, 75 (1940).

82. “Calculation of Dipole Moments from Rates of Nitration of Substituted Benzenes and its Sienificance for Organic Chemistrv”. T. Ree and H. EGing, J. Chem. - - Ph>s., 8, 433 (1940).

83. “Theories of Optical Rotatory Power”, W. J. Kauzmann, J. E. Walter, and H. Eyring, Chem. Rev., 26, 3 (1940).

84. “The Effect of Solvents on Reaction Rates”, K. J.

Laidler and H. Eyring, Ann. N . Y. Acad. Sci., 39, 303 (1940).

85. “Application of the Theory of Absolute Reaction Rates to Heterogeneous Processes. I. The Absorption and Desorption of Gases”, K. J. Laidler, S. Glasstone, and H. Eyring, J . Chem. Phys., 8, 659 (1940).

86. “Application of the Theory of Absolute Reaction Rates to Heterogeneous Processes. 11, Chemical Reactions on Surfaces”, K. J. Laidler, S. Glasstone, and H. Eyring, J . Chem. Phys., 8, 667 (1940).

87. “Absolute Rates of Solid Reactions: Diffusion”, A. E. Stearn and H. Eyring, J. Phys. Chem., 44,955 (1940).

88. “A Theory of Diffusion in Liquids”, A. E. Stearn, E. M. Irish, and H. Eyring, J. Phys. Chem., 44, 981 (1940).

89. “The Viscous Flow of Large Molecules”, W. Kauzmann and H. Eyring, J . Am. Chem. SOC., 62,3113 (1940).

90. “The Effect of the Rotation of Groups about Bond on Optical Rotatory Power”, W. Kauzmann and H. Eyring, J. Chem. Phys., 9, 41 (1941).

91. “An Elementary Formulation of Statistical Mechanics”, H. Eyring and J. Walter, J. Chem. Educ., 18,2 (1941).

92. “A Theory of the Thermodynamic Properties of Large Molecules”, R. E. Powell, C. R. Clark, and H. Eyring, J . Chem. Phys., 8 , 268 (1941).

93. “Non-Adiabatic Reactions. Rotation about the Double Bonds”, J. L. Magee, W. Shand, Jr., and H. Eyring, J . Am. Chem. SOC., 63, 577 (1941).

94. “Diffusion, Thermal Conductivity and Viscous Flow of Liquids”, R. E. Powell, W. E. Roseveare, and H. Eyring, Ind. Eng. Chem., 33, 430 (1941).

95. “The Theory of Absolute Reaction Rates and its Ap- plication to Viscosity and Diffusion in the Liquid State“, J. F. Kincaid, H. Eyring, and A. E. Stearn, Chem. Rev., 28, 2 (1941).

96. “Theory of Acid Strength. Temperature Effect”, J. L. Magee, T. Ree, and H. Eyring, J. Chem. Phys., 9,419 (1941).

97. “A Partition Function for Normal Liquids”, J. Walter and H. Eyring, J. Chem. Phys., 9, 393 (1941).

98. “The Structure and Dynamics of Liquids”, W. E. Ro- seveare, R. E. Powell, and H. Eyring, J. Appl. Phys., 12, 669 (1941).

99. “Pressure and Rate Processes”, A. E. Stearn and H. Eyring, Chem. Rev., 29, 3 (1941).

100. “Frictional and Thermodynamic Properties of Large Molecules”, R. E. Powell and H. Eyring, Adu. Colloid Sci., I, 183 (1942).

101. “The Structure of Substituted Ethylenes and Their Isomerization Polymerization and “Peroxide Addition” Reactions”, R. A. Harman and H. Eyring, J . Chem. Phys., 10, 557 (1942).

102. “Application of the Theory of Absolute Reaction Rates to Bacterial Luminescence”, H. Eyring and J. L. Magee, J. Cell. Comp. Physiol., 20, 169 (1942).

103. “The Nature of Enzyme Inhibitions in Bacterial Lu- minescence: Sulfanilamide Urethane, Temperature and Pressure”, F. H. Johnson, H. Eyring, and R. W. Williams, J . Cell. Comp. Physiol., 20, 247 (1942).

104. “The Properties of Liquid Sulfur”, R. E. Powell and H. Eyring, J. Am. Chem. SOC., 65, 648 (1943).

105. “Mechanical Properties of Polymeric Materials”, A. Tobolsky and H. Eyring, J. Chem. Phys., 11, 125 (1943).

106. ”Some Thermodynamic Properties and Rate Processes at Surfaces”, H. Eyring, J. Walter, and A. E. Stearn, the American Association for the Advancement of Science, Publication 21, 1943, p 88.

107. “Organic Reactions”, H. Eyring, H. M. Hulburt and R. A. Harman, Znd. Ind. Eng. Chem., 35, 511 (1943).

108. “A Quantitative Theory of Synergism and Antagonism among Diverse Inhibitors, with Special Reference to Sulfanilamide and Urethane”, H. Eyring and W. Kearns, Arch. Biochem., 3, No. 1 (1943).

109. “Rate Theory and Some Physical and Chemical Prop- erties of High Polymers”, H. M. Hulburt, R. A. Harman, A. V. Tobolsky, and H. Eyring, Ann. N. Y.


Acad. Sci., 44, 371 (1943). 110. “The Drift Toward Equilibrium”, H. Eyring, Am. Sci.,

Spring Issue, 32, No. 2, 87 (1944). 111. “Rheological Properties of Simple and Colloidal

Systems”, H. Eyring and R. E. Powell, J . Colloid Chem., 236 (1944).

112. ”The Nature of the Luciferin-Luciferase System”, F. H. Johnson and H. Erying, J . Am. Chem. SOC., 66,848 (1944).

113. ”The Value of Fundamental Research to the Textile Technologist”, H. Eyring, Rayon Text. Mon., 71,519 (1945).

114. “The Nature and Control of Reactions in Biolumines- cence, with Special Reference to the Mechanism of Reversible and Irreversible Inhibitions by Hydrogen and Hydroxyl Ions, Temperature, Pressure, Alcohol, Urethane, and Sulfanilamide in Bacteria”, F. H. Johnson, H. Eyring, R. Steblay, H. Chaplin, C. Huber, and G. Gherardi, J. Gen. Physiol., 28, 463 (1945).

115. “Mechanisms for the Relaxation Theory of Viscosity”, H. Eyring and R. E. Powell, (1944).

116. “Mechanical Properties of Textiles, I”, G. Halsey, H. J. White, Jr., and H. Eyring, Text. Res. J., 15, 9 (1945).

117. “Mechanical Properties of Textiles, 11, A General Theory of Elasticity with Application to Partially Rubber-Like Substances”, G. Halsey and H. Eyring, Text. Res. J., 15, 12 (1945).

118. “Serving Through Science: The Time Factor in Chemistry”, H. S. Taylor and H. Eyring, Radio Talk sponsored by U. S. Rubber Co., 1945.

119. “Mechanical Properties of Textiles, 111”, H. Eyring and G. Halsey, Text. Res. J., 16, 6 (1946).

120. ”Mechanical Properties of Textiles, IV”, R. Stein, G. Halsey, and H. Eyring, Text. Res. J., 16, 2 (1946).

121. “Mechanical Properties of Textiles, V, The Three Ele- ments Model Under any Experimental Condition”, H. Eyring and G. Halsey, Text. Res. J., 16, 3 (1946).

122. “Mechanical Properties of Textiles, VI, A Study of Creep of Fibers”, H. D. Holland, G. Halsey, and H. Eyring, Textile Res. J., 16, 5 (1946).

123. “Mechanical Properties of Textiles, 111, Supplementary Data for Discussion of Published Papers”, S. Katz, G. Halsey, and H. Eyring, Text. Res. J., 16,6 (1946).

124. ”Mechanical Properties of Textiles, VII, The Visco- Elastic Properties of a Wool Fiber”, G. Haley and H. Eyring, Text. Res. J., 16, 7 (1946).

125. “Mechanical Properties of Textiles, VIII, The Stress- Strain Relationship of a Plush Fabric”, H. Eyring and G. Halsey, Text. Res. J., 16, 7 (1946).

126. “Mechanical Properties of Textiles, IX, A System Showing a Distribution of Non-Newtonian Viscous Elements”, S. Katz, G. Halsey, and H. Eyring, Text. Res. J., 16, 8 (1946).

127. “Mechanical Properties of Textiles, X, Analysis of Steinberger’s Data on Creep of Cellulose Acetate Filaments”, C. H. Reichardt, G. Halsey, and H. Eyring, Text. Res. J., 16, 382 (1946).

128. “Theoretical Aspects of Water Accumulation in Cohe- sive Subgrade Soils”, H. F. Winterkown and H. Eyring, Proceedings of the Twentyfifth Annual Meeting of the Highway Research Board, 1946, pp 422.

129. “Pressure and Reactivity of Proteins with Particular Reference to Invertase”, H. Eyring, F. H. Johnson, and R. L. Gensler, J . Phys. Chem., 50, 6 (1946).

130. ”Mechanical Properties of Textiles, XI, Application of the Theory of the Three-Element Model to Stress- Strain Experiments on Cellulose Acetate Filaments”, C. H. Reichardt and H. Eyring, Text. Res. J., 16,635 (1946).

131. “Some Recent Advances in Non-Newtonian Viscosity”, H. Eyring and G. Halsey, J . Colloid Sci., 2, 1 (1947).

132. “Reaction Rate Studies”, H. Eyring, Jackson Labora- tory, Lecture Series No. 12, 1947.

133. “The Mechanism of the Luminescence of Solids”, F. E.

Williams and H. Eyring, J. Chem. Phys., 15, 289 (1947).

134. “The Foundations of Reaction Rate Theory and Some Recent Applications”, H. Eyring and B. J. Zqolinski, Rec. Chem. Progr., 87 (1947).

135. “The Non-Equilibrium Theory of Absolute Rates of Reaction”, B. J. Zqolinski and H. Eyring, J. Am. Chem. SOC., 69, 2707 (1947).

136. “The Absorption of Water by Swelling High Polymeric Materials”, H. J. White, Jr., and H. Eyring, Text. Res. J., 17, 523 (1947).

137. ”The Creep and Plastic Flow of Solid Materials”, H. Eyring, Abstract in Science, 507 (1947).

138. “Philosophy of the Purity and Identity of Organic Compounds”, H. Eyring, Anal. Chem., 20,100 (1948).

139. “Bacteria Which Make Their Own Light”, F. H. Johnson and H. Eyring, J. N. Y. Botanical Garden, 120 (1948).

140. “The Fundamental Action of Pressure, Temperature, and Drugs on Enzymes, as Revealed by Bacterial Luminescence”, F. H. Johnson and H. Eyring, Ann N. Y. Acad. Sci., 47, 376 (1948).

141. ”The Properties of Macromolecules”, R. E. Powell, C. R. Clark, and H. Eyring, Rec. Chem. Progr., 2 (1941).

142. “Statistical Rate Theory of Metals, Mechanism of Flow and Application to Tensile Properties”, J. W. Fre- drickson and H. Eyring, Am. Inst. Min. Eng., Tech. Publ., No. 2423, 1 (1948).

143. “The Mechanism of Flow for Solid Metals”, H. Eyring, J. W. Fredrickson, and D. McLachlan, Jr., Proc. Natl. Acad. Sci. U.S.A., 34, 295 (1948).

144. “Abstract of Reaction Rates in Physics”, H. Eyring, presented at 1948 meeting of the National Academy of Science.

145. “Some Accomplishments and Limitations of Reaction Rate Theory”, H. Eyring, Sci. Mon., 67, No. 3, 183 (1948).

146. “Binary Solutions of Imperfect Liquids”, R. B. Parlin and H. Eyring, Chem. Reu., 44, 47 (1949).

147. “A Theory for Creep of Ceramic Bodies under Constant Load”, Peter Gibbs and H. Eyring, Can. J . Res., B , 27, 374 (1949).

148. “Stability of Detonation”, H. Eyring, R. E. Powell, G. H. Duffey, and R. B. Parlin, Chem. Rev., 45,70 (1949).

149. “Some applications of Modern Rate Theory to Physi- ological Systems”, H. Eyring, R. Lumry, and J. W. Woodbury, Rec. Chem. Prog., Summer Issue (1949).

150. “Diffusion and Membrane Permeability”, H. Eyring, B. J. Zwolinski, and C. E. Rees, J . Phys. Colloid Chem., 53, 1426 (1949).

151. “The Theory of Absolute Reaction Rates Applied to the Study of Polarographic Waves”, T. Kwoh, L. Marker, and H. Eyring, J . Phys. Colloid. Chem., 53, 1453 (1949).

152. “The Flow Properties of Fibers”, S. A. Rossmassler and H. Eyring, Text. Res. J., 19, 12 (1949).

153. “The Constitution of Chromic Salts in Aqueous Solution”, H. T. Hall and H. Eyring, J . Am. Chem. SOC., 72, 782 (1950).

154. “Time and Change”, H. Eyring, 14th Annual Reynolds Lecture, 1950.

155. “Potential Changes in Suspensions of Chloroplasts on Illumination”, J. D. Spikes, R. Lumry, H. Eyring, and R. E. Wayrynen, Arch. Biochem., 28, 48 (1950).

156. ”Optical Rotary Power of Benzoin”, T. Kwoh and H. Eyring, J . Chem. Phys., 18, 1186 (1950).

157. “Potential Changes in Chloroplast Suspensions and in Whole Cytoplasm Preparations of Plant Cells on Illumination”, J. D. Spikes, R. Lumry, H. Eyring, and R. E. Wayrynen, Proc. Natl Acad. U.S.A., 36, 455 (1950).

158. “Mechanical Properties and the Structure of Hair”, C. E. Reese and H. Eyring, Text. Res. J., 20,743 (1950).

159. “The Activated Complex in Chemisorption and Catalysis”, H. Eyring, C. Colburn, and B. Zwolinski, Trans. Faraday SOC., No. 8, 39 (1950).

160. “Non-Classical Reaction Kinetics”, H. Eyring and P.

2646 The Journal of Physical Chemistty, Vol. 87, No. 15, 1983

Gibbs, Science (Quantum Mechanics Issue), 113 (1951).

161. “Averaged Field Calculation of the Polarity of the Carbon-Hydrogen Bond”, H. Eyring and C. R. Mueller, J . Chem. Phys., 19, 193 (1951).

162. “The Inductive Effect and Chemical Reactivity. I. General Theory of the Inductive Effect and Appli- cation to Electric Dipole Moments of Haloalkanes”, H. Eyring, T. Ree, R. P. Smith, and J. L. Magee, J . Am. Chem. SOC., 73, 2263 (1951).

163. “The Physical Theory of Meteors. I. A Reaction-Rate Approach to the Rate of Mass Loss in Meteors”, M. A. Cook, H. Eyring, and R. N. Thomas, Astrophys. J., 113 (1951).

164. “An Application of the Absolute Reaction Rate Theory to Some Problems in Annealing”, F. W. Cagle, Jr., and H. Eyring, J. Appl. Phys., 22, 771 (1951).

165. “The Overlap Average and Central field Approximations”, C. R. Mueller and H. Eyring, J . Chem. Phys., 19, 934 (1951).

166. “Molecular Theory of Damping in Fibers”, H. Eyring, M. C. Chen, and T. Ree, Text. Res. J., 21,789 (1951).

167. “Variation of Electric Dipole Moment with Bond Length”, R. P. Smith and H. Eyring, J. Am. Chem. Soc., 73, 5512 (1951).

168. “Application of Absolute Reaction Rate Theory to the Racemization of Certain Sterically Hindered Compounds”, F. W. Cagle, Jr., and H. Eyring, J. Am. Chern. SOC., 73, 5628 (1951).

169. “Semilocalized Orbitals I. The Hydrogen Molecule”, C. R. Mueller and H. Eyring, J. Chem. Phys., 19,1495 (1951).

170. “The Inductive Effect and Chemical Reactivity 11. Reaction of Halides with Sodium Atoms”, H. Eyring and R. P. Smith, J. Am. Chem. Soc., 74,229 (1952).

171. “Chemical Valence Forces and Binding Energy Calculations”, H. Eyring and C. R. Mueller, Proc. Natl. Acad. Sci. U.S.A., 38, 149 (1952).

172. “Forced Vibrations of Polyamide Monofils”, H. Eyring, M. G. Alder, S. A. Rosmassler, and C. J. Christensen, Text. Res. J., 22, 233 (1952).

173. “Radiation Induced Decomposition of Certain Organic Molecules in Solution”, M. A. Alder and H. Eyring, Nucleonics, 10, 54, (1952).

174. “Stress Relaxation and Shrinkage in Fibers”, M. C. Chen, T. Ree, and H. Eyring, Text. Res. J., 22,416 (1952).

175. ”Chemical Reactions in the Gas Phase Connected with Ionization”, M. Wallenstein, A. Wahrhaftig, H. Ro- senstock, and H. Eyring, Oberlin Symposium, 1950.

176. “Examination into the Origin, Possible Synthesis and Physical Properties of Diamonds”, H. Eyring and F. W. Cagle, Jr., 2. Electrochem., 56, 480 (1952).

177. “Absolute Rate Theory for Isolated Systems and the Mass Spectra of Polyatomic Molecules”, H. M. Ro- senstock, M. B. Wallenstein, A. L. Wahrhaftig, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 38, 667 (1952).

178. “The Significance of Isotopic Reactions in Rate Theory”, H. Eyring and F. W. Cagle, Jr., J . Phys. Chem., 56, 889 (1952).

179. “Some Recent Developments in Reaction Rate Theory”, H. Eyring and R. P. Smith, J. Phys. Chem., 56,992 (1952).

180. “Some Aspects of Catalytic Hydrogenation”, H. Eyring, R. B. Parlin, M. B. Wallenstein, and B. J. Zwolinski, L. Farkas Memorial Volume, Research Council of Israel, Special Publication No. 1 (1952).

181. “Structure of the Liquid State and Viscosity of Hydrocarbons”, R. J. Moore, P. Gibbs, and H. Eyring, J . Phys. Chem., 57, 172 (1953).

182. “A Kinetic Treatment of Saturation and Condensation Statistics”, H. Eyring and M. B. Wallenstein, Proc. Natl. Acad. Sci. U.S.A., 39, 138 (1953).

183. ”Mechanical Properties of Cotton Fibers 1. Relaxation in Air and Water”, J. A. Lasater, E. L. Nimer, and

H. Eyring, Text. Res. J., 23, No. 4 (1953). 184. “A Study of Three-Center Integrals Useful in Molecular

Quantum Mechanics”, R. A. Barker and H. Eyring, J . Chem. Phys., 21, No. 5 (1953).

185. “Mechanical Properties of Cotton Fibers 11. Effect of Acids on Fibers under Tension”, J. A. Lasater, E. L. Nimver, and H. Eyring, Text. Res. J., 23, No. 7 (1953).

186. ”Thermal Diffusion in Binary Systems”, S. Prager and H. Eyring, J . Chem. Phys., 25, No. 8 (1953).

187. “Photosynthesis”, R. Lumry, J. Spikes, and H. Eyring, Ann. Rev. Phys. Chem., 4 (1953).

188. “Mechanical Properties of Cotton Fibers 111. Effect of Alkali Hydroxide on Fibers Under Tension”, E. L. Nimer, J. A. Lasater, and H. Eyring, Text. Res. J., 23, No. 9 (1953).

189. “The Inductive Effect and Chemical Reactivity 111. Effect of Charge Shifts on Energetics of Some Basic Reactions of Aliphatic Compounds”, R. P. Smith and H. Eyring, J. Am. Chem. SOC., 75, 5183 (1953).

190. “An Application of the Absolute Rate Theory to Phase Changes in Solids”, F. W. Cagle, Jr., and H. Eyring, J. Phys. Chem., 57, 942 (1953).

191. “Kinetic and Thermodynamic Aspects of Enzyme- Catalyzed Reactions”, H. Eyring, R. Lumry, and J. D. Spikes, Symposium on the Mechanism of Enzyme Action, Johns Hopkins Press, Baltimore, 1954.

192. “Evaluation of Some Electron Repulsion Integrals Needed in Molecular Quantum Mechanics 2. Use of the Neumann Expansion in Evaluation of Two Electron Three-Center Repulsion Integrals”, R. S. Barker and H. Eyring, J. Chem. Phys., 22,114 (1954).

193. ”Conformation Changes of Proteins”, R. Lumry and H. Eyring, J. Phys. Chem., 58, 110 (1954).

194. “Equilibrium Theory of Unimolecular Reactions”, J. C. Giddings and H. Eyring, J . Chem. Phys., 22, 538 (1954).

195. ”Use of Electron Repulsion Integral Approximations in Molecular Quantum Mechanics”, R. S. Barker, H. Eyring, C. J. Thorne, and D. A. Baker, J. Chem. Phys., 22, 669 (1954).

196. “Federal Support of Basic Research a t a State University”, H. Eyring, J. Chem. Educ., 31, 251 (1954).

197. “The Electron Tunnelling Hypothesis for Electron Exchange Reactions”, R. J. Marcus, B. J. Zwolinski, and H. Eyring, J . Phys. Chem., 58, 432 (1954).

198. “Membrane Permeability and Electrical Potential”, R. B. Parlin and H. Eyring, Reprinted from “Ion Transport Across Membranes”, Academic Press, New York, 1954.

199. “Evaluation of Some Electron Repulsion Integrals Needed in Molecular Quantum Mechanics. A Me- thod of Calculation of Two Electron Multi-Center Repulsion Integrals Without the Use of the Neumann Expansion”, R. S. Barker and H. Eyring, J . Chern. Phys., 22, 1177 (1954).

200. “Use of Nuclear Attraction Integral Approximations in Molecular Quantum Mechanics. A Method of Cal- culation of Two Electron Multi-Center Repulsion Integrals Without the Use of the Neumann Expansion”, R. S. Barker and H. Eyring, J. Chern. Phys., 22, 1177 (1954).

201. “Implications of the Chemical Kinetics of Some Bio- logical Systems”, R. Lumry and H. Eyring, reprinted from “The Present State of Physics”, American As- sociation for the Advancement of Science.

202. “Chemical Alterations Produced in Tissue by Irradiation”, H. Eyring and J. Bowers, reprinted from Proceedings of the Second National Cancer Confer- ence.

203. “Some Current Problems of Reaction Rate Theory”, H. Eyring, reprinted from XIIIth International Congress of Pure and Applied Chemistry: Plenary Lectures Given in August, 1953.

204. “Approximate Integral Evaluations Used in the Mo- lecular Quantum Mechanics of Nonlinear Molecules”,


J . Phys. Chem., 61, 1 (1957). 229. “Adsorption Kinetics. 11. Nature of the Adsorption

Bond”, I. Higuchi, T. Ree, and H. Eyring, J . Am. Chem. SOC.., 79, 1330 (1957).

230. “A Theory of Thixotrophy and Its Application of Grease”, S. J. Hahn, T. Ree, and H. Eyring, Spokesman, N.L.G.I. (1957).

231. “The Mechanical Properties of the Alpha-Beta Trans- formation in Natural Keratin Fibers”, A. L. Ruoff and H. Eyring, Proc. Int. Wool Text. Res. Conf., D, 9 (1955).

232. “Generalization of the Theory of Viscosity and Diffusion”, A. T. Ree and H. Eyring, Proc. Int. Wool Text. Res. Conf., D, 26 (1955).

233. “The Mechanical Behavior of Polyacrylonitrile Fibers in the Presence of an External Plasticizer, (Water)”, C. E. Reese, A. L. Ruoff, and H. Eyring, Proc. Int. Wool Text. Res. Conf., D, 26 (1955).

234. “Strain Electrometry and Corrosion I. General Con- siderations on Interfacial Electrical Transients”, A. G. Funk, J. C. Giddings, C. J. Christensen, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 43, 421 (1957).

235. “Some Molecular Aspects of Heart Behavior”, H. Eyring and R. Parlin, Ann. N . Y. Acad. Sci., 65,653 (1957).

236. “Kinetics of Graphite Oxidation”, G. Blyholder and H. Eyring, J. Phys. Chem., 61, 682 (1957).

237. “Elastic-Viscous Properties of Matter”, A. Tobolsky, R. E. Powell, and H. Eyring, ”The Chemistry of Large Molecules”, R. E. Burke and Oliver Grummitt, D., Interscience, New York, 1943, Chapter V.

238. “The Mechanical Properties of Textiles, The Simple Non-Newtonian Model”, H. Eyring and G. Halsey, “High-Polymer Physics“, A Symposium, Howard A. Robinson, Ed., Remsen Press Division, Chemical Publishing Co., Brooklyn, NY 1948.

239. “Reaction Rates”, F. Wm. Cagle, Jr., and H. Eyring, in “The Encyclopedia of Chemistry”, George L. Clark, Ed., Reinhold, New York, 1957, p 817.

240. “Relation of Relaxation Theory to Some Properties of Lubricants”, T. Ree, H. Eyring, A. Fava, and I. Hi- guchi, Spokesman, J.N.L.G.I.

241. “Flow Properties of Liquids”, T. Ree and H. Eyring, Symposium on Incendiary Gels and their Instru- mentation, C. M. L. C. Chem. and Radiological Labs, at Army Chemical Center, Maryland, 1956, p 50.

242. “Strain Electrometry and Corrosion. 11. Chemical Effects with Copper Electrodes”, A. G. Funk, J. C. Giddings, C. J. Christensen, and H. Eyring, J. Phys. Chem., 61, No. 9 (1957).

243. “Alpha-Hydrogen Bonding-A Theory of the Baker- Nathan Effect”, M. M. Kreevoy and H. Eyring, J . Am. Chem. SOC., 79, 5121 (1957).

244. “General Theoris of Heterogeneous Catalysis”, R. Parlin, M. Wallenstein, B. J. Zwolinski, and H. Eyring, “Catalysis”, Vol. 11, Reinhold, New York, 1955, Chapter 5.

245. “Theory of Stress Relaxation in Wool and Isobutylene Polymers”, A. T. Ree, S. J. Hahn, and Eyring, Proc. Int. Wool Text. Res. Conf., D, 244 (1955).

246. “The Critical Complex Theory of Biogenesis”, H. Eyring and F. H. Johnson, in “The Influence of Temperature on Biological Systems”, American Physiological So- ciety, 1957.

247. “Diabatic Reactions”, H. Eyring, G. Stewart, and R. B. Parlin, Can. J . Chem., 36, 72 (1958).

248. “Catalytic Hydrogenation of Ethylene Over Evaporated Nickel”, J. G. Foss and H. Eyring, J . Phys. Chem., 62, 103 (1958).

249. “A Kinetic Theory for the Oxidation of Carbonized Filaments”, G. Blyholder, J. S. Binford, Jr., and H. Eyring, J. Phys. Chem., 62, 263 (1958).

250. “Flow Properties of Lubricating Oils Under Pressure”, S. J. Hahn, H. Eyring, I. Higuchi, and A. T. Ree, NLGI Spokesman, J.N.L.G.I., 121 (1958).

251. “The Inactivation of Growth-Promoting Dislocations with Temperature, Pressure and Poisons”, J. E.

R. S. Barker and H. Eyring, J. Chem. Phys., 22,2072 (1954).

205. “Inorganic Oxidation-Reductions in Solution Electron Transfers”, B. J. Zwolinski, R. J. Marcus, and H. Eyring, Chem. Rev., 55, 157 (1955).

206. “A Generalized Theory of Plasticity Involving the Virial Theorem”, H. Eyring and T. Ree, Proc. Natl. Acad. Sci. U.S.A., 41, 118 (1955).

207. “Energy Calculations for the Linear H3+ Ion System”, R. S. Barker, J. C. Giddings, and H. Eyring, J . Chem. Phys., 23, 344 (1955).

208. “Genetics of Chemiluminescence of the 2,3-Dihydro- phthalazine-l,6diones”, H. Eyring, R. Lumry, and P. C. Wilhelmsen, reprinted from The Luminescence of Biological Systems.

209. “A Molecular Dynamic Theory of Chromatography”, J. C. Giddings and H. Eyring, J . Phys. Chem., 59, 416 (1955).

210. “Theory of Non-Newtonian Flow. I. Solid Plastic System”, T. Ree and H. Eyring, J . Appl. Phys., 26, 793 (1955).

21 1. “Theory of Non-Newtonian Flow. 11. Solution System of High Polymers”, T. Ree and H. Eyring, J. Appl. Phys., 26, 800 (1955).

212. “Molecular Mechanisms in Inflammation and Stress. I.”, H. Eyring and T. F. Dougherty, Am. Sci., 43, 3 (1955).

213. “Use of Molecular Quantum-Mechanical Approxima- tions Exemplified in the Energy Calculation of the H3-Systemn, R. S. Barker, H. Eyring, D. A. Baker, and C. J. Thorne, J. Chem. Phys., 23, 1381 (1955).

214. “Energy Calculations of Multiple Hydrogen-Atom System, by VB and MO Methods“, R. S. Barker, R. Snow, and H. Eyring, J. Chem. Phys., 23,1686 (1955).

215. “The Breaking of Single Cotton Fibers under Various Conditions”, R. L. Pearson, A. G. Funk, and H. Eyring, Text. Res. J., 25, 11 (1955).

216. “Metastable Ions in Mass Spectra”, H. M. Rosenstock, A. L. Wahrhaftig, and H. Eyring, J . Chem. Phys., 23, 2200 (1955).

217. “Adsorption Kinetics. I. The System of Alkali Atoms on Tungsten”, I. Higuchi, T. Ree, and H. Eyring, J . Am. Chem. SOC., 77, 4969 (1955).

218. “Kinetics of the Oxidation of Pyrolytic Carbon”, M. C. Chen, C. J. Christensen, and H. Eyring, J . Phys. Chem., 59, 1146 (1955).

219. “Irreversible Thermodynamics and Rate Theory”, R. B. Parlin, R. J. Marcus, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 41, 900 (1955).

220. “Mass Spectra and the Chemical Species Produced by the Impact of Low Energy Electrons”, M. Krauss, A. L. Wahrhaftig, and H. Eyring, Annu. Rev. Nucl. Sci., 5 (1955).

221. “Sodium Transport in Isolated Frog Skin”, H. P. Kato, B. J. Zwolinski, and H. Eyring, J . Phys. Chem., 60, 404 (1956).

222. “Flame Propagation: The Random Walk of Chemical Energy”, H. Eyring, J. C. Giddings, and L. G. Ten- smeyer, J . Phys. Chem., 24, 857 (1956).

223. “Energy Exchange in Photoreactions”, R. Lumry and H. Eyring, “Radiation Biology”, Vol. 111, ”Visible and Near-Visible Light”, Alexander Hollaender, Ed., McGraw-Hill, New York, 1956, Chapter 1;

224. “Kinetics of the Steam-Carbon Reaction”, J. S. Binford, Jr., and H. Eyring, J. Phys. Chem., 60, 486 (1956).

225. “Equilibrium and Kinetics of Detergent Adsorption-A Generalized Equilibration Theory”, A. Fava and H. Eyring, J . Phys. Chem., 60, 890 (1956).

226. “Restricted Random Walk in Transport”, H. Eyring, T. Ree, and T. Einwohner, abstract reprinted from Proc. Utah Acad. Sci., Arts, Lett., 33, 119 (1956).

227. “A Theory of Inflammation and Stress”, H. Eyring, abstract reprinted from Proceedings of the Hawaiian Academy of Science, Thirtyfirst Annual Meeting, University of Hawaii, 1955-6.

228. “Activated Complex Energies”, R. Snow and H. Eyring,


Manson, F. W. Cagle, Jr., and H. Eyring, R o c . Natl. Acad. Sci. U.S.A., 44, 156 (1958).

252. “Principle of Minimum Bending of Localized and De- localized Orbitals: Ethane Barrier and Related Effects”, H. Eyring, G. H. Stewart, and R. P. Smith, Proc. Natl. Acad. Sci. U.S.A., 44, 259 (1958).

253. “Strain Electrometry, Corrosion and Catalysis 111. The Iron Electrode”, A. G. Funk, D. N. Chakravarty, H. Eyring, and C. J. Christensen, 2. Phys. Chem. (Frankfurt am Main), 15, (1958).

254. “A Theory of Optimum Conditions for Phase Transitions”, H. Eyring, F. W. Cagle, Jr., and C. J. Christensen, Proc. Natl. Acad. Sci. U.S.A., 44, 120 (1958).

255. “Bulk Viscosity of Liquids”, N. Harai and H. Eyring, J . Appl. Phys., 29, 810 (1958).

256. “Relaxation Theory of Transport Problems in Con- densed Systems”, F. H. Ree, T. Ree, and H. Eyring, Ind. Eng. Chem., 50, 1036 (1958).

257. “Significant Structures in the Liquid State. I.”, H. Eyring, T. Ree, and N. Hirai, Proc. Natl. Acad. Sci. U.S.A., 44, 683 (1958).

258. ”The Relaxation Theory of Transport Phenomena”, T. Ree and H. Eyring, “Rheology ... Theory and Applications”, Vol. II., Frederick R. Eirich, Ed., Ac- ademic Press, New York, 1958.

259. ”The Principle of Minimum Bending of Orbitals”, G. H. Stewart and H. Eyring, J . Chem. Educ., 35, 550 (1958).

260. “Multi-Barrier Kinetics. Nucleation”, J. C. Giddings and H. Eyring, J. Phys. Chem., 62, 305 (1958).

261. “Nature of Matter-Prologue to New Chemicals and Materials”, H. Eyring, Ind. Eng. Chem., 51 ,5 (1959).

262. “The Viscosity of High Polymers-The Random Walk of a Group of Connected Segments”, H. Eyring, T. Ree, and N. Hirai, Proc. Natl. Acad. Sci. U.S.A., 44, 1213 (1958).

263. “Strain Electrometry and Corrosion, IV. Film Prop- erties and Strain Potential”, J. C. Giddings, A. G. Funk, C. J. Christensen, and H. Eyring, J . Electro- chem. Soc., 106, 2 (1959).

264. “Scientific Creativity”, H. Eyring, Centennial Review, 3, No. 2 (1959).

265. “Kinetics of the Steam-Carbon Reaction”, G. Blyholder and H. Eyring, J. Phys. Chem., 63, 693 (1959).

266. “Bulk Viscosity of Polymeric Systems”, N. Harai and H. Eyring, J . Polym. Sci., 37, 51 (1959).

267. “Kinetics of Graphite Oxidation. 11”, G. Blyholder and H. Eyring, J . Phys. Chem., 63, 1004 (1959).

268. “Flow Mechanism of Thixotropic Substances”, S. J. Hahn, T. Ree, and H. Eyring, N.L.G.I. Spokesman, 129 (1959).

269. “Flow Mechanism of Thixotropic Substances”, S. J . Hahn, T. Ree, and H. Eyring, Ind. Eng. Chem., 51, 856 (1959).

270. ”Significant Structures in Liquids. 11”, E. J. Fuller, T. Ree, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 45, 1594 (1959).

271. ”Reaction Rate Control of Light Emission in Biolu- minescent Systems”, F. H. Johnson, H. Eyring, and J. J. Chang, Faraday SOC. Discuss., No. 27 (1959).

272. “Quantum-Mechanical Studies on Oxidation Potentials and Antioxidizing Action of Phenolic Compounds”, T. Fueno, T. Ree, and H. Eyring, J. Phys. Chem., 63, 1940 (1959).

273. “Temperature Studies of Sodium Ion Flux Through Isolated Frog Skin”, R. P. Boyce, J. D. Spikes, and H. Eyring, Proc. Utah Acad. Sci., Arts, Lett., 36, 89 (1959).

274. “The Physical Chemistry of Nerve Action”, H. Eyring, reprinted from “Molecular Biology”, Academic Press, New York, 1960.

275. ”The Mechanical Properties of Rat Tail Tendon”, B. J. Rigby, N. Hirai, J. D. Spikes, and H. Eyring, J. Gen. Physiol., 43, 2 (1959).

276. “Relaxation Theory of Creep of Metals”, F. H. Ree, T.

Ree, and H. Eyring, Proc. Am. SOC. Civ. Eng., No.

277. “Mass Spectrum of Propane: Isotope Effect and Metastable Ions”, A. Kropf, E. M. Eyring, A. L. Wahrhaftig, and H. Eyring, J. Chem. Phys., 32,149 (1960).

278. “Theory of Non-Newtonian Flow, 111. A Method for Analyzing Non-Newtonian Flow Curves”, W. K. Kim, N. Hirai, T. Ree, and H. Eyring, J. Appl. Phys., 31, 358 (1960).

279. “Significant Structures in Liquids. 111. Partition Function for Fused Salts”, C. M. Carlson, H. Eyring, and T. Ree, Proc. Natl. Acad. Sei. U.S.A., 46, 333 (1960).

280. “Sgmfhnt Structures in Liquids, IV. Liquid Chlorine”, T. R. Thomson, H. Eyring, and T. Ree, Proc. Natl. Acad. Sci. U.S.A., 46, 336 (1960).

281. “Potential Energy Barrier for Rotation and the Con- densation Coefficients of Hz and D2 on Alumina by Gas Chromatography”, E. M. Mortensen and H. Eyring, J . Phys. Chem., 64, 433 (1960).

282. “Significant Structures and Relaxations”, H. Eyring, T. Ree, D. M. Grant, and R. C. Hirst, 2. Electrochem., 64, 146 (1960).

283. “Significant Structures in Liquids, V. Thermodynamic and Transport Properties of Molten Metals”, C. M. Carlson, H. Eyring, and T. %e, Proc. Natl. Acad. Sci. U.S.A., 46, 649 (1960).

284. “Allgemeine Diskussion uber Methoden (General Dis- cussion on Methods)”, H. Eyring, et al., 2. Elektro- chem., 64, 80 (1960).

285. “Non-Newtonian Relaxation in Amorphous Solids”, S. J. Hahn, T. Ree, and H. Eyring, in “Non-Crystalline Solids”, V. D. Frechette, Ed., Wiley, New York, 1960, p 297.

286. “Transmission Coefficients for Evaporation and Condensation”, E. M. Mortensen and H. Eyring, J . Phys. Chem., 64, 846 (1960).

287. “Rheological Properties of Molecules in Fibers”, S. Chang, F. H. Ree, T. Ree, and H. Eyring, Trans. SOC. Rheol., IV, 191 (1960).

288. “Study of Irradiation Effects and the H2 + H2 Buildup in Tantalum”, A. F. Gabrysh, H. Eyring, M. E. Wadsworth, G. S. Baker, and T. Ree, J. Appl. Phys., 31, 1785 (1960).

289. “Three-Body Recombination of Gaseous Ions”, T. Fueno, H. Eyring, and T. %e, Can. J . Chem., 38,1693 ( 1960).

290. “Thermodynamics of Living Systems”, H. Eyring, R. P. Boyce, and J. D. Spikes, in “Comparative Biochemistry-A Comprehensive Treatise”, Vol. I, Marcel florkin and Howard S. Mason, Ed., Academic Press, New York, 1960 pp 15, 590.

291. ”Electron Spin Correlation and the Ethane Barrier”, H. G. Hecht, D. M. Grant, and H. Eyring, Mol. Phys., 3, 577 (1960).

292. “Rates of Reaction”, H. Eyring in “The Logic of Per- sonal Knowledge: Essays Presented to Michael Po- lanyi on His 70th Birthday”, Routledge and Kegan Paul, London, p 25.

293. “Significant Structures in Liquids, VI. The Vacancy Theory of Liquids“, H. Eyring and T. Ree, Proc. Natl. Acad. Sci. U.S.A., 47, 526 (1961).

294. “The Electrochemical Theory of Smelting and Related Reactions”, X. de Hemptinne, H. Eyring, and T. Ree, in “Physical Chemistry of Process Metallurge”, Part I. Vol. VII, George R. St. Pierre, Ed., Interscience,

2333-EM1 (1960).

New York, 1961;~ 69. 295. “A Many Electron Model for Optical Rotation”, L. L.

Jones and H. Evrine. Tetrahedron. 13. 235 (1961). “ “l

296. “Thixotropic Property of Lubricating’Grease”, H. Ut- sugi, K. Kim, T. Ree, and H. Eyring, N.L.G.I. Spokesman, 25, 125 (1961).

297. “Evaluation of Symposium Findings and New Fields of Research”, H. Eyring, Microchem. J., Symp. Ser., 1 , 339 (1961).


D. Henderson, S. Kim, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 48, 1753 (1962).

321. “Departures from Equilibrium Kinetics”, H. Eyring, T. S. Ree, T. Ree, and F. M. Wanlass, “The Transition State”, Chem. SOC. Spec. Publ., No. 16, The Chemical Society, London, 1962, p 3, plus discussion, p 25.

322. “Thermoluminescence and the Influence of y-Ray In- duced Defects in Single-Crystal a-A1203”, A. F. Ga- brysh, H. Eyring, V. LeFebre, and M. D. Evans, J . Appl. Phys., 33, 3389 (1962).

323. “An Imidazole Pump Model of Electron Transport”, D. W. Urry and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 49, 253 (1963).

324. “Theory of Flow Properties of Attapulgite Suspension in Water. A Method for Determining the Relaxa- tion-Time Parameter p”, A. F. Gabrysh, H. Eyring, M. Shimizu, and J. Asay, J . Appl. Phys., 34, 261 (1963).

325. “Electrode Depolarization Kinetics on Open Circuit”, T. N. Andersen and H. Eyring, J . Phys. Chem., 67, 92 (1963).

326. “The Liquid State”, H. Eyring, J. Hildebrand, and S. Rice, Int. Sci. Technol., 56 (1963).

327. “The Equilibrium Theory of Reaction Rates”, G. N. Lewis Award Address, H. Eyring, The Vortex, 24, no. 5, 138 (1963).

328. “Significant Liquid Structures and Kinetics”, H. Eyring, Desalination Research Conference, NAS-NRC, Publ. 942, 1963, p 134.

329. “The Differential Thermal Nalysis of Natural and Modified Wool and Mohair”, W. D. Felix, M. A. McDowall, and H. Eyring, Text. Res. J., 33 (1963).

330. “Effects of High Pressure on The Thermoluminescence of y-Irradiated a-Al2OB Single Crystals”, A. F. Ga- brysh, M. J. Kennedy, H. Eyring, and V. R. Johnson, Phys. Reu., 131, 1543 (1963).

331. “Improved Calculation of Quasiequilibrium Reaction Rate Constants”, S. H. Lin and H. Eyring, J . Chem. Phys., 39, 1577 (1963).

332. “Optical Rotation”, D. J. Caldwell and H. Eyring, Reu. Mod. Phys., 35, 577 (1963).

333. “Significant Structure Theory of Liquids”, H. Eyring and R. P. Marchi, J . Chem. Educ., 40, 562 (1963).

334. “Chemical Horizons”, H. Eyring, Chem. Eng. News, No. 56 (1963), (Presidential Address at National Meeting, New York).

335. “Decay Products of Radium in Ceramics and Their Interaction with Matter”, A. F. Gabrysh, H. Eyring, 0. H. Bezirjian, and J. H. Merrill, Mater. Res. Stand., 3, 902 (1963).

336. “Scientific Communication”, H. Eyring, J. Chem. Educ., 40, 617 (Editorial) (1963).

337. “Rheological Factors for Bentonite Suspensions”, W. F. Gabrysh, H. Eyring, P. Lin-sen, and A. F. Gabrysh, J . Am. Ceram. SOC., 46, 523 (1963).

338. “Statistical Thermodynamics and Reaction Rate Theory”, D. Henderson and H. Eyring, “Non-Stoi- chiometric Compounds”, Lyon Mandelcorn, Ed., Academic Press, New York, 1963, Chapter 2, p 49.

339. “Thermodynamic and Physical Properties of Liquid Fluorine as Calculated by Significant Structure Theory of Liquids”, T. R. Thomson, H. Eyring, and T. Ree, J. Phys. Chem., 67, 2701 (1963).

340. “Strain Electrometry and Passivation of Aluminum Electrodes”, T. N. Andersen, B. A. Miner, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 51, 97 (1964).

341. “Correlation Between the Significant Liquid Structure Theory“, T. S. Ree, T. Ree, and H. Eyring, Proc. Nutl. Acad. Sci. U.S.A., 51, 344 (1964).

342. “Application of Significant Structure Theory to Water”, R. P. Marchi and H. Eyring, J . Phys. Chem., 68, 221 (1964).

343. “The Theory of Absolute Reaction Rates in Solution”, H. Eyring and D. W. Urry, 2. Elektrochem., 67,731 (1963).

344. “Molecular Structures and Relaxations”, H. Eyring, in

298. “Flow Properties of Attapulgite Suspension in Water”, A. F. Gabrysh, T. Ree, H. Eyring, N. McKee, and I. Cutler, Trans. SOC. Rheol., V, 67 (1961).

299. “Formation of Color Centers in Sapphire by Solar Radiation”, A. F. Gabrysh, H. Eyring, and T. Ree, J. Phys. Chem., 65, 1547 (1961).

300. “Thermodynamic and Transport Properties of Liquids”, H. Eyring, D. Henderson, and T. Ree, in “Progress in International Research on Thermodynamic and Transport Properties”, American Society of Me- chanical Engineers, United Engineering Center, New York, 1961, p 340.

301. “A Model for Optical Rotation”, L. L. Jones and H. Eyring, J. Chem. Educ., 38, 601 (1961).

302. ”Statistical Theory of Surface Tension”, S. Chang, T. Ree, H. Eyring, and I. Matzner, in ”Progress in In- ternational Research on Thermodynamic and Transport Properties”, American Society of Me- chanical Engineers, United Engineering Center, New York, 1961, p 88.

303. “Sticking Coefficients”, F. M. Wanlass and H. Eyring, in “Solid Surfaces and the Gas-Solid Interface”, Adu. Chem. Ser., R. F. Gould, Ed., American Chemical Society, Washington, DC, No. 33, p 140.

304. ”Activated Complexes of Fast Bimolecular Reactions”, T. S. Ree, T. Ree, H. Eyring, and T. Fueno, J. Chem. Phys., 36, 281 (1962).

305. “Process Kinetics Can Predict Reaction Mechanism”, H. Eyring, Chem. Eng., 67, 83 (1960).

306. “Thermoluminescence of Golden Sapphire and Fused Borax Seeded with Ni, Mg, and U03”, H. A. Wood- bury, H. Eyring, and A. F. Gabrysh, J . Phys. Chem., 65, 551 (1962).

307. “Mechanism of Ion Formation in High-Temperature Flames”, T. Fueno, N. R. Mukherjee, T. Ree, and H. Eyring, Symp. (Int.) Combust., [Proc.], 8th, 222 (1962).

308. “Ions in Flames”, N. R. Mukherjee, T. Fueno, H. Eyring, and T. Ree, Sym. (Int.) Combust., [Proc.], 8th, 1 (1962).

309. “Determination of the Radon Emanation from Carbo- nate Rocks and Its Potential Hazard in Building Materials”, A. F. Gabrysh, N. D. McKee, and H. Eyring, Mater. Res. Stand., 2, No. 4 (1962).

310. “Significant Liquid Structure Theory, IX. Properties of Dense Gases and Liquids”, T. S Ree, T. Ree, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 48, 501 (1962).

311. “The Significance of Absolute Configuration in Optical Rotation and in Catalysis”, H. Eyring, L. L. Jones, and J. D. Spikes, Horiz. Biochem., 229 (1962).

312. “Rheological Factors for Attapulgite Suspended in Water”, A. F. Gabrysh, H. Eyring, and I. Cutler, J . Am. Ceram. Soc., 45, 334 (1962).

313. “The Significant Structure Theory of Liquid Hydrogen in Its Various Ortho-Para and Isotopic Forms”, D. Henderson, H. Eyring, and D. Felix, J. Phys. Chem., 66, 1128 (1962).

314. ”Automatic Rotational Viscometer and High-pressure Apparatus for the Study of the Non-Newtonian Be- havior of Materials”, A. F. Gabrysh, H. Eyring, S. Ma, and K. Liang, Rev. Sci. Instrum., 33, 670 (1962).

315. “The Rotational Barrier in Ethane”, H. Eyring, D. M. Grant, and H. Hecht, J. Chem. Educ., 39,466 (1962).

316. “Stereochemistry and Rate Theory in Protein Synthesis”, D. W. Urry and H. Eyring, Arch. Bio- chem. Biophys., Suppl. 1, 52 (1962).

317. “Mechanism of Inhibitor Action for Chain Processes”, T. Ree, K. Yang, and H. Eyring, Trans. Faraday Soc., No. 480, 58, part 12 (1962).

318. “Random Walk and Related Physical Problems”, F. H. Ree, T. S. Ree, T. Ree, and H. Eyring, Adu. Chem. Phys. 4, (1962).

319. “The Transmission Coefficient in Reaction Rate Theory”, H. Eyring, Rev. Mod. Phys., 34,616 (1962).

320. “An Approximate Cell Model for Liquid Hydrogen, I.”,

2650 The Journal of Physical Chemistry, Vol. 87, No 15, 1983

“Proceedings of the Robert A. Welch Foundation on Chemical Research 111, Molecular Structure”, 1959. p 7.

345. “On the Region of Indifference for High Pressure Transitions in d-Camphor (11-111) and Phosphorus (I-II)”, A. F. Gabrysh, H. Eyring, and A. Van Hook, J . Phys. Chem. Solids, 24, 129 (1964).

346. “Comparison of Various Liquid Theories with the Sig- nificant Structure Theory”, T. R. Ree, T. Ree, and H. Eyring, J . Phys. Chem., 68, 1163 (1964).

347. “Absolute Reaction Rate Theory and the Law of Mass Action”, H. Eyring and S. H. Lin, The Law of Mass Action, a Centenary Volume, 117, Norske Viden- skaps-Akademi I Oslo, 1964.

348. “Variational Calculation of the Optical Activity of 3- Methylcyclopentanone (One-Electron Theory)”, T. Watanabe and H. Eyring, J . Chem. Phys., 40, 3411 (1964).

349. “Mobile Bond Orders of Some Polyphenyls from SCF- LCAO-MO Theory”, S. Kwun, T. Ree, and H. Eyring, J . Chem. Phys., 40, 3320 (1964).

350. “Contribution of Interfacial Resistance to Theoretical Plate Height in Gas Chromatography”, M. R. James, J. C. Giddings, and H. Eyring, J . Phys. Chem., 68, 1725 (1964).

351. “Significant Structure Theory of Surface Tension”, T. S. Ree, T. Ree, and H. Eyring, J. Chem. Phys., 41, 524 (1964).

352. “Stress-Relaxation and Recovery Time for Grease and Polymer Systems. Determination of the Relaxa- tion-Time Parameter p”, M. H. Miles, D. W. Miles, A. F. Gabrysh, and H. Eyring, NLGI Spokesman, 28, no. 6, 172 (1964).

353. “*-Electron Conjugation in Some Polyphenyl Molecules”, T. Nakamura, S. Kwun, and H. Eyring, “Molecular Orbitals in Chemistry, Physics and Biology“, Academic Press, New York, 1964.

354. “Condensation and Vaporization of Condensed Phases”, H. Eyring, F. M. Wanlass, and E. M. Eyring, produced under NSF Research Grant.

355. “Thermal Conductivity of Liquids”, S. H. Lin, H. Eyring, and W. J. Davis, J . Phqs. Chem., 68, 3017 (1964).

356. “Optical Rotation”, D. J. Caldwell and H. Eyring, Annu. . Chem., 15, 281 (1964). Structure Theory of Binary Liquid Mix-

tures: Carbon Tetrachloride and Cyclohexane”, K. Liang, H. Eyring, and R. P. Marchi, R o c . Natl. Acad. Scz. V.S.A., 52, 1107 (1964).

358. “Optical Rotatory Dispersion Studies of L-Histidine Chelation”, D. W. Urry and H. Eyring, J. Am. Chem.

359. “Zero-Charge Potentials of Solid Metals”, T. N. An- dersen, R. S. Perkins, and H. Eyring, J. Am. Chem. Sol., 86, 4496 (1964).

360. “Mercaptan Inhibition of the Decay of a Smooth Platinum Cathode”, J. Jacknow, H. Eyring, and T. N. Andersen, J . Phys. Chem., 68, 3357 (1964).

361. “Significant Structure Theory of Transport Phenomena“, T. S. Ree, T. Ree, and H. Eyring, J . Phys. Chem., 68, 3262 (1964).

362. “Ultraviolet Rotatory Dispersion of Adenosine, Inosine and their Monophosphates”, C. Y. Lin, D. W. Urry. and H. Eyring, Biochem. Biophys. Res. Commun., 17, 642 (1964).

363. “Biological Electron Transport, 11. A Variation of the Imidazole Pump Model to Include Coupling”, D. W. Urry and H. Eyring, J . Theor. Biol , 8, 214 (1965).

364. “Biological Electron Transport, 1. Imidazole Pump Model of Electron Transport: a Group Transfer Model”, D. W. Urry and H. Eyring, J . Theor. B i d , 8, 198 (1965).

365. “Magneto-Optical Rotation of Transition-Metal Complexes”, S. Lin and H. Eyring, J . Chem. Ph\s.,

SOL., 86, 4574 (1964).

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42, 1580 (1963). 366. “Significant-Structure Theory and Cell Theory for

Two-Dimensional Liquids of Hard Discs”, Y. Wang, T. Ree, T. S. Ree, and H. Eyring, J . Chem. Phys., 42, 1926 (1965).

367. “Significant-Structure Theory of Binary Mixtures, 11“, S. Ma and H. Eying, J . Chem. Phys., 42,1920 (1965).

368. “Optical Rotatory Dispersion of L-Cysteine-Cobalt Systems”, D. W. Urry, D. Miles, D. J. Caldwell, and H. Eyring, J . Phys. Chem., 69, 1603 (1965).

369. “Thermodynamics and Chemical Kinetics”, H. Eyring and D. W. Urry, in “Theoretical and Mathematical Biology”, Waterman and Morowitz, Ed., 1965, Chapter 4, p 57.

370. ”The Application of Significant Structure Theory to Binary Liquid Mixtures: AR + N,; AR + O2 and O2 + N2”, B. A. Miner and H. Eyring, Proc. Natl. Acad. Sei. U.S.A., 53, 1227 (1965).

371. “Surface-Active Agents and Interfacial Transfer in Gas-Liquid Chromatography. A New Tool for Measuring Interfacial Resistance”, M. R. James, J. C. Giddings, and H. Eyring, J. Phys. Chem., 69,2351 (1965).

372. “Recent Developments in the Significant Structure Theory of Liquids”, H. Eying, T. R. Ree, and T. Ree, Znt. J . Eng. Sei., 3, 285 (1965).

373. ”The Stability of Organic Compounds and the Nature of Chemical Change”, H. Eying and F. W. Cagle, Jr., in ”Treatise on Analytical Chemistry”, Part 11, Vol. 11, Section B, Interscience, New York, 1965, p 45.

374. “This Changing World”, H. Eyring, A.A.A.S. Bulletin, 1965.

375. “Significant Structure Theory of Liquids”, H. Eyring and T. Ree, Bull. N. M. Acad. Sei., 6, No. 1 , 6 (1965).

376. “Calculation of Statistical Complexions of Harmonic Oscillations”, S. H. Lin and H. Eyring, J . Chem. Phys., 43, 2153 (1965).

377. “Isotopes in Analysis”, H. Eyring, in “Proceedings of the Robert A. Welch Foundation Conferences on Chem- ical Research; VII. Modern Development in Ana- lytical Chemistry”, Chapter 11, p 7 (1963).

378. “The Reduced Thermodynamic Functions for the Sig- nificant Structure Theory of Simple Liquids”, T. S. Ree, T. Ree, H. Eyring, and R. Perkins, J. Phys. Chem., 69, 3322 (1965).

379. ”Voltage Transients of Freshly Produced Noble Metal Electrode Surfaces”, R. S. Perkins, R. C. Livingston, T. N. Andersen, and H. Eyring, J . Phys. Chem.. 69, .~

3329 (1965). 380. “The Significant Structure Theory Applied to Liquid

Hydrogen Halides”, J. Grosh, M. H. Jhon, T. Ree, and H. Eyring, Proc. Natl. Acad. Sei. U.S.A., 54, 1004 (1965).

381. “The Significant Structure Theory Applied to Meta- and Para-Xylene”, M. S. Joh, J. Grosh, T. Ree, and H. Eyring, Proc. Natl. Acad. Sei. U.S.A., 54, 1419 (1965).

382. “Recent Advances in the Theory of Liquids”, T. S. Ree, T. Ree, and H. Eyring, Angew. Chem., Int. Ed. Engl., 4, 923 (1965).

383. “Electrical Properties of Some Porphyrins under High Pressure”, D. W. Wood, T. N. Andersen, and H. Eyring, J . Phys. Chem., 70, 360 (1966).

384. “Electrical Properties of Some Charge-Transfer Com- plexes under High Pressure”, T. N. Andersen, D. W. Wood, R. C. Livingston, and H. Eyring, J. Chem. Phys., 44, 1259 (1966).

385. “Significant-Structure Theory Applied to Water and Heavy Water”, M. S. John, J. Grosh, T. Ree, and H. Eyring, J . Chem. Phys., 44, 1465 (1966).

386. “The Significant Structure Theory Applied to the Hy- drides of Elements of the Fifth Group”, M. S. Jhon, J. Grosh, T. Ree, and H. Eyring, J. Phys. Chem., 70. 1591 (1966).

387. “Significant Structure Theory of Molecules Having Hindered Intermolecular Rotation in the Condensed Phases”, D. R. McLaughlin and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 55, 1031 (1966).

388. “The Dispersion of Electric Birefringence”, S. H. Lin,


and H. Eyring, Rev. Sci. Instrum., 38, 1009 (1967). 411. “Rate Theory in Solids”, H. Eyring, in “Energetics”, Vol.

111, Gordon and Breach, New York, 1967. 412. “Further Applications of the Domain Theory of Liquid

Water: I, Surface Tension of Light and Heavy Water 11, Dielectric Constants of Lower Aliphatic Alcohols”, M. S. Jhon, E. R. Van Artsdalen, J. Grosh, and H. Eyring, J . Chem. Phys., 47, 2231 (1967).

413. “Substituent Effects on the Optical Activity of Some Purine Nucleosides”, D. W. Miles, R. K. Robins, and H. Eyring, J . Phys. Chem., 71, 3931 (1967).

414. ”Nobel Prizes: Four Named for Internation Award“, “Chemistry”, H. Eyring and E. M. Eyring, Science, 158, 745 (1967).

415. “The Strength of Materials”, H. Eyring, Exp. Mech., 3A (1967).

416. “Some Techniques for High Pressure Experiments”, M. Tamayama and H. Eyring, Rev. Sci. Instrum., 38, 1666 (1967).

417. “The Physical Chemistry of Nerve Action”, H. Eyring, in ”Nobel Symposium V. Fast Reaction and Primary Processes in Chemical Kinetics”, Interscience, New York, 1967, p 401.

418. “The Surface Tension of Binary Liquid Mixtures”, S. W. Kim, M. S. Jhon, T. Ree, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 59, 336 (1968).

419. “Electrolytic Reduction of Carbon Dioxide on Lead Cathodes”, T. N. Andersen, B. A. Miner, E. Dibble, and H. Eyring, in ”Proceedings of the International Conference on Tropical Oceanography”, November 17-24,1965, University of Miami Institute of Marine Sciences, 1967.

420. “Significant Structure Theory of Isotope Effect”, J. Grosh, M. S. Jhon, T. Ree, and H. Eyring, Proc. Natl. Acad. Sci., 58, 2196 (1967).

421. “The Dielectric Constants of Mixtures and of the Su- percritical Region of Some Hydrogen-Bonded Fluids”, M. S. Jhon and H. Eyring, J. Am. Chem. SOC., 90, 3071 (1968).

422. “Vicinal Effects on the Optical Activity of Some Ade- nine Nucleosides”, D. W. Miles, S. J. Hahn, R. K. Robins, M. J. Robins, and H. Eyring, J . Phys. Chem., 72, 1483 (1968).

423. “Evidence of an Acid-Catalyzed a,@ Epimerization in Pyridine Nucleotides”, D. W. Miles, D. W. Urry, and H. Eyring, Biochemistry, 7, 2333 (1968).

424. “The Significant Structure Theory Applied to Some Liquid Rocket Fuels”, T. R. Schmidt, M. S. Jhon, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 60, 387 (1968).

425. “Application of Significant Structure Theory of the Correlation of Thermodynamic Properties of C02, COS and CS2 in Terms of the Respective Molecular Parameters”, M. E. Zandler, J. E. Watson, Jr., and H. Eyring, J . Am. Chem. SOC., 72, 2730 (1968).

426. “Optical Rotatory Dispersion and Circular Dichroism”, H. Eyring, H. Liu, and D. Caldwell, Chem. Rev., 68, 525 (1968).

427. “Significant Structure Theory Applied to Molten Salts”, W. Lu, T. Ree, V. G. Gerrard, and H. Eyring, J . Chem. Phys., 48, 797 (1968).

428. “Near Symmetry and Model Structures”, H. Eyring, in “Proceedings of The Robert A. Welch Foundation Conferences on Chemical Research XI, Radiation and the Structure of Matter”, Houston, TX, December 4-6, 1967.

429. “Reactions of Fresh Metal Electrode Surfaces”, T. N. Andersen, J. L. Anderson, D. D. bode, Jr., and H. Eyring, J . Res. Inst. Catal., Hokkaido Uniu., 16, 1 (1968).

430. “Circular Dichroism of Nucleoside Derivatives, IV, Uracil Derivatives”, D. Miles, M. J. Robins, R. K. Robins, M. W. Winkley, and H. Eyring, J. Am. Chem.

C. Y. Lin, and H. Eyring, J . Phys. Chem., 70,1756 (1966).

389. “Experimental Study of the Effects of Temperature and Ultra-High Pressure on the Coalification of Bitu- minous Coal”, L. Pan, T. N. Andenen, and H. Eyring, Znd. Eng. Chem. Process Des. Dev., 5, 242 (1966).

390. “The Role of the Physical Sciences in Biomedical Research”, D. W. Urry and H. Eyring, Perspect. Biol. Med., 9, 450 (1966).

391. “The Dielectric Constant of Liquid Water and Various Forms of Ice According to Significant Structure Theory”, M. E. Hobbs, M. S. Jhon, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 56, 31 (1966).

392. “Some Mechanical and Optical Properties of Gamma- Irradiated Alpha-A1203 Spheres Subjected to 30- Kilobars Pressure”, A. F. Gabrysh, M. Lo, L. Pan, and H. Eyring, J . Franklin Inst., 282, 3 (1966).

393. “Gamma-Ray Induced Defect Bleaching in Pressure Deformed Single Crystal Alpha-Al,03“, A. F. Gabrysh, H. Eyring; M. Lo, S. Hardy, and J. Yaks, J. Franklin Inst., 282, 3 (1966).

394. “The Significant Structure Theory of Water”, H. Eyring and M. Jhon, Chemistry, 39, 8 (1966).

395. “Untangling Biological Reactions”, H. Eyring, Science, 154, 3757, 1609 (1965).

396. “Cation Effects on the Potentials of Zero Charge of Gold, Silver and Mercury Electrodes”, D. D. Bode, T. N. Andersen, and H. Eyring, J. Electrochem. SOC., 114, no. 1 (1967).

397. “Significant Structure Theory Applied to Surface Tension”, W. Lu, M. S. Jhon, T. Ree, and H. Eyring, J . Chem. Phys., 46, 1075 (1967).

398. “Anion and pH effects on the Potentials of Zero Charge of Gold and Silver Electrodes”, D. D. Bode, T. N. Andersen, and H. Eyring, J . Phys. Chem., 71, 792 (1967).

399. “The Melting and Pyrolysis of Teflon and the Melting of Silver Chloride and Iodine Under High Pressure”, M. Tamayama, T. N. Andersen, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 57, 554 (1967).

400. “The Significant Structure Theory Applied to Liquid Oxygen”, K. Kim, W. C. Lu, T. Ree, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 57, 861 (1967).

401. “Temperature Effects on the Potential Zero Charge of the Mercury Electrode”, W. Paik, T. N. Andersen, and H. Eyring, J . Phys. Chem., 71, 1891 (1967).

402. “Optical Rotatory Dispersion, Circular Dichroism and Absorption Studies on Some Naturally Occurring Ribonucleosides and Related Derivatives”, D. W. Miles, R. K. Robins, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 57, 1137 (1967).

403. ”Mechanism for the Plastic Deformation of Yule Marble”, S. J. Hahn, T. Ree, and H. Eyring, Geol. SOC. Am. Bull., 78, 773 (1967).

404. “The Significant Structure and Properties of Liquid Hydrazine and Liquid Diborane”, M. S. John, J. Grosh, and H. Eyring, J . Phys. Chem., 71, 2253 (1967).

405. “Pressure Effects on the Thermal Decomposition of /3-Cholestanyl S-Methyl Xanthate”, L. Pan, T. N. Andersen, and H. Eyring, J . Phys. Chem., 71, 2258 (1967).

406. “On an Improved Partition Function of Significant Structure Theory”, J. Grosh, M. S. Jhon, T. Ree, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 57, 1566 (1967).

407. “Pressure Effects on the Electrical Properties of Poly- crystalline Boron”, T. N. Andersen, H. Bezirjian, and H. Eyring, J . Electrochem. SOC., 114, (1967).

408. ”The Search for Significant Structures”, H. Eyring, J . Mater., 2 (1967).

409. “Sensitivity and Reliability of the Senses”, H. Eyring, H. B. Eyring, and J. W. Woodbury, Proc. Natl. Acad. Sci. U.S.A., 58, 462 (1967).

410. ”Study of Pressure Calibration and Pressure Distribu- tion in a Piston-Cylinder High Press”, M. Tamayama

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S O ~ . , 91, 824 (1969). 431. “Circular Dichroism of Nucleoside Derivatives, V, Cy-

tosine Derivatives”, D. Miles, M. J . Robins, R. K.

2652 The Journal of Physical Chemistty, Vol. 87, No. 15, 1983

Robins, M. W. Winkley, and H. Eyring, J. Am. Chem. SOC., 91, 831 (1969).

432. ”The Significant Structure Theory of Liquids Applied to the Shock Compression of Argon”, S. H. Lin, D. Tweed, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 61, 1171 (1968).

433. “Circular Dichroism of Nucleoside Derivatives, VI, The Optically Active Bands of Adenine Nucleoside Derivatives”, D. W. Miles, M. J. Robins, R. K. Robins, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 62, 22 ( 1969).

434. “A CD Study of Tris-o-Phenanthroline and Tris-Bi- pyridine Osmium Complexes”, D. Boone, R. Klingbiel, D. Caldwell, and H. Eyring, Rev. Chim. Miner., 6,305 (1969).

435. “The Effect of High Pressure on the Voltage and Current Output of Silver Oxide-Zinc and Mercury Oxide-Zinc Miniature Batteries”, T. N. Andersen, B. A. Miner, M. H. Ghandehari, R. J. Brodd, and H. Eyring, J . Electrochem. SOC., 116, 10 (1969).

436. “The Nature of Fresh Metal Surfaces in Aqueous Solutions”, T. N. Andersen, J. Anderson, and H. Eyring, J . Phys. Chem., 73, 3562 (1969).

437. “Significant Structure Theory Applied to Surface Tension of Binary Liquid Mixtures”, S. W. Kim, H. Eyring, and Y. T. Lee, J. Chem. Phys., 51, 3967 (1969).

438. “Adsorption, Optical Rotatory Dispersion and Circular Dichroism Studies on Some Sulfur-Containing Ribonucleosides”, K. Cheong, Y. Fu, R. K. Robins, and H. Eyring, J . Phys. Chem., 73, 4219 (1969).

439. “Theoretical Calculation of the Pressure Dependence of Liquid Hydrocarbon Viscosities”, M. S. Jhon, W. L. Klotz, and H. Eyring, J . Chem. Phys., 51, 3692 (1969).

440. “Models in Research”, H. Eyring, J. Quantum Chem., 111s (1969).

441. “Kinetic Studies of the Electrolytic Reduction of Carbon Dioxide on the Mercury Electrode”, W. Paik, T. N. Andersen, and H. Eyring, Electrochim. Acta, 14, 1217 (1969).

442. “Circular Dichroism of Nucleoside Derivatives, VII, The Electronic Structure and Spectra of Some Simple Nucleoside Derivatives”, D. Miles, W. Inskeep, M. Robins, M. Winkley, R. Robins, and H. Eyring, J . Quantum Chem., 111s (1969).

443. “An Improved Iteration Method for the Calcualtion of Surface Tension Using the Significant Structure Theory of Liquids”, M. S. Jhon and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 64 (1969).

444. “Principles of Electrode Kinetics”, T. N. Andersen and H. Eyring, in “Physical Chemistry: An Advanced Treatise”, Vol. 9A, H. Erying, D. Henderson, and W. Jost, Ed., Academic Press, New York, 1970, Chapter 3, p 247.

445. “The Kinetic Basis of Pressure Effects in Biology and Chemistry”, F. Johnson and H. Eyring, in “High Pressure Effects on Cellular Processes”, 1970, Chapter 1, P 1.

446. “Kinetics of Heterogeneous Chemical Reactions”, 11, S. H. Lin and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 65, 47 (1970).

447. “The Dynamics of Life, I. Death From Internal Irra- diation by 239Pu and 226Ra, Aging, Cancer and Other Diseases”, B. Stover and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 66, 132 (1970).

448. “Circular Dichroism of Nucleoside Derivatives, VIII. Coupled Oscillator Calculations of Molecules with Fixed Structure”, W. Inskeep, D. Miles, and H. Eyring, J. Am. Chem. SOC., 92, 3866 (1970).

449. “Circular Dichroism of Nucleoside Derivatives, IX. Vicinal Effects on the Circular Dichroism of Pyri- midine Nucleosides”, D. Miles, W. Inskeep, M. Rob- ins, M. Winkely, R. Robins, and H. Eyring, J. Am. Chem. SOC., 92, 3872 (1970).

450. “The Dynamics of Life, 11. The Steady-State Theory

of Mutation Rates”, H. Eyring and B. Stover, Proc. Natl. Acad. Sci. U.S.A., 66, 441 (1970).

451. “The Dynamics of Life, 111. Mechanisms of Nonsurvival and the Relation of Dose Size”, B. Stover and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 66,672 (1970).

452. “The Activated Complex in Some High Temperature Heterogeneous Reactions”, H. Eyring and S. H. Lin, Plenum Press, 1970.

453. “The Viscous Flow and Glass Transition Temperature of Some Hydrocarbons”, G. Faerber, S. Kim, and H. Eyring, J. Phys. Chem., 74, 3510 (1970).

454. “Kinetic Parameters by the Method of Mixed Potentials”, J. Herbelin, T. Andersen, and H. Eyring, Electrochim. Acta, 15, 1455 (1970).

455. “Detonation”, S. H. Lin and H. Eyring, Annu. Rec. Phys. Chem., 21, 225 (1970).

456. ”Curvature Dependence of the Surface Tension and the Theory of Solubility”, D. Choi, M. S. Jhon, and H. Eyring, J . Chem. Phys., 53, 2608 (1970).

457. “Kinetic Studies of the Racemization of Optically Active (Aminoacidato)triethylenetraminecobalt(III) Com- plexes. cis-&-1-(Phenylalaninato)(triethylenetetr- amine)cobalt Iodide and cis-&-D- and -1-(L-Prolina- to) (triethy1enetetramine)cobalt Iodides in Aqueous Solutions”, M. H. Ghandehari, T. N. Andersen, D. Boone, and H. Eyring, J . Am. Chem. Soc., 92,6466 (1970).

458. “Configuration Interaction in the Calculation of Os- cillatory and Rotatory Intensities of Nonplanar H - Electronic Systems”, K. Cheong, A. Oshita, D. Cald- well, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 67, 1727 (1970).

459. “Vibronic Contributions to Optical Rotation”, R. T. Klingbiel and H. Eyring, J . Phys. Chem., 74, 4543 (1970).

460. “Structure of Electrical Double Layer between Mercury and Dimethyl Sulfoxide in the Presence of Chloride Ions”, S. Kim, T. N. Andersen, and H. Eyring, J . Phys. Chem., 74,4555 (1970).

461. “Solution of the Time-Dependent Schrodinger Equaiton by the Laplace Transform Method”, S. H. Lin and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 68,76 (1971).

462. ”Calculation of the Reaction Cross Section From a Rate Constant by the Method of Steepest-Descent”, S. H. Lin and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 68, 402 (1971).

463. “Kinetics of Hterogeneous Chemical Reactions: A. Theoretical Model for the Accumulation of Pesticides in Soil”, S. H. Lin, R. Sahai, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 68, 777 (1971).

464. “Circular Dichroism of Nucleoside Derivatives, X. In- fluence of Solvents and Substituents Upon the Cotton Effects of Guanosine Derivatives”, D. Miles, L. Townsend, M. Robins, R. Robins, W. Inskeep, and H. Eyring, J . Am. Chem. SOC., 93, 1600 (1971).

465. “The Structure of Liquids”, H. Eyring and M. S. Jhon, NASA Symposium held July 15-17, 1969.

466. “Chemical Kinetics of Plastic Deformation”, A. S. Krausz and H. Eyring, J . Appl. Phys., 42, 6 (1971).

467. “The Dynamics of Life, V. Applying the Steady-State Theory of Mutations to Human Cancer”, H. Eyring, B. Stover, and R. Brown, Proc. Natl. Acad. Sci. U.S.A., 68, 1670 (1971).

468. “Torsion Angle Dependence of Dipole Strength and Rotational Strength”, K. Cheong, A. Oshita, D. Caldwell, and H. Eyring, Topics Mod. Phys., 93 (1971).

469. “The Elastomeric Rack in Biology”, H. Eyring and F. Johnson, Proc. Natl. Acad. Sci. U.S.A., 68, 2341 (1971).

470. “Theoretical Analysis of Emission Spectra of Electronic Transitions of Molecules in Dense Media”, S. H. Lin, L. J. Colangelo, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 68, 2135 (1971).

471. “Quantum Mechanical Rate Processes”, D. Caldwell and H. Eyring, “Perspectives in Quantum Theory”, MIT


periment, Jerusalem Symp. Quantum Chem. Bio- chem., 4, 325 (1972).

494. “Numerical Methods Used in the Significant Structure Theory of Liquids”, A. K. MacKnight and H. Eyring, J . Comput. Phys., 9, 584 (1972).

495. “Hydrostatic Pressure and Ionic Strength Effects on the Kinetics of Lysozyme”, W. M. Neville and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 69, 2417 (1972).

496. ”Systematics in the Electronic Spectra of Nucleoside Derivatives”, W. H. Inskeep, D. W. Miles, and H. Eyring, J. Chem. Phys., 57, 2736 (1972).

497. “Stochastic Model of Unimolecular Reactions and the RRKM Theory”, S. H. Lin, K. H. Lau, W. Richard- son, L. Vol, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 69, 2778 (1972).

498. “The Electrode Reduction Kinetics of Carbon Dioxide in Aqueous Solution”, J. Ryu, T. N. Anderson, and H. Eyring, J. Phys. Chem., 76, 3278 (1972).

499. “Quantum Statistical Theory of Rate Processes”, S. H. Lin and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 69, 3192 (1972).

500. “The Dynamics of Life: Againg VI”, H. Eyring and B. J. Stover, Proc. Natl. Acad. Sci. U.S.A., 69, 3512 (1972).

501. ”The Significant Structure Theory Applied to Halo- benzenes”, S. W. L. Wu, A. K. MacKnight, W. J. Stearns, Jr., M. E. Zandler, and H. Eyring, Phys. Chem. Liquids, 3, 181 (1972).

502. “The Significant Liquid Structure Theory Applied to the Critical Properties of the Alkali Metals”, C. C. Hsu, A. K. MacKnight, and H. Eyring, J. Inorg. Nucl. Chem., 35, 45 (1973).

503. “MCD Behavior of Benzene and Its Derivatives”, D. J. Caldwell and H. Eyring, J. Chem. Phys., 58, 1149 (1973).

504. “Absolute Reaction Rate Constants and Chemical Re- action Cross Section of Bimolecular Reactions. 11. Numerical Results”, K. H. Lau, S. H. Lin, and H. Eyring, J. Chem. Phys., 58, 1261 (1973).

505. “MCD of Molecules in Dense Media. 111. Substituted Benzenes”, D. J. Shieh, S. H. Lin, and H. Eyring, J. Phys. Chem., 77, 1031 (1973).

506. “A Molecular Mechanism of General Anesthesia”, H. Eyring, J. W. Woodbury, and J. S. D’Arrigo, Anes- thesiology, 38, 415 (1973).

507. “Application of the Singular Perturbation Method to Reaction Kinetics”, W. Richardson, L. Volk, K. H. Lau, S. H. Lin, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 70, 1588 (1973).

508. “MCD of N-Methyl Derivatives of Purine (l)”, L. B. Townsend, D. W. Miles, S. J. Manning, and H. Eyring, J. Heterocyc. Chem., 10, 419 (1973).

509. “Molecular Orbital Calculation of Magnetic Circular Dichroism Spectra: A Benzene-Indole Sequence”, D. W. Miles and H. Eyring, Proc. Natl. Acad. Sci. U. S.A., 70, 3754 (1973).

510. “Effect of Chemical Substitution on Absorption Spectra and Magnetic Circular Dichroism of Molecules in Dense Media”, D. J. Shieh, Y. C. Fu, S. H. Lin, and H. Eyring, Proc. Natl. Acad. Sci., U.S.A., 71, 209 (1973).

511. “Atmospheric Corrosion”, H. Eyring, B. Robertson, C. C. Chu, and T. N. Andersen, Proc. Natl. Acad. Sci., 71, 245 (1974).

512. “Electromagnetic Radiation and Dissymmetry”, D. J. Caldwell and H. Eyring, in “Planets, Stars and Nebulae”, T. Gehrels, Ed., The University of Arizona Press, Tucson, AZ, 1974.

513. “Investigation of the Composition and Formation Constant of Molecular Complexes”, R. Sahai, G. L. Loper, S. H. Lin, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 71, 1499 (1974).

514. “A Comparison of the Immersion and Open-circuit Scrape Methods for Determining the Potential of Zero Charge of Metal Electrodes”, G. J. Clark, T. N. Andersen, R. S. Valentine, and H. Eyring, J. Elec-

Press, Cambridge, MA, 1971, Chapter 9, p 117. 472. “The Significant Structure Theory of Liquids”, M. S.

Jhon and H. Eyring, Phys. Chem., 8A, 335 (1971). 473. “Magnetic Circular Dichroism”, D. Caldwell, J. Thorne,

and H. Eyring, Annu. Rev. Phys. Chem., 22, 259 (1971).

474. “Absolute Reaction Rate Constants and Chemical Re- action Cross Sections of Bimolecular Reactions”, S. H. Lin, K. H. Lau, and H. Eyring, J. Chem. Phys., 55, 5657 (1971).

475. “Significant Theory of Physical Adsorption”, Y. L. Wang, T. Ree, and H. Eyring, J. Korean Chem. SOC., 15, 265 (1971).

476. “Potential Energy Surfaces for Halogen Atom-Molecule Reactions”, L. Dalla Riva, S. H. Lin, and H. Eyring, An. Quim. Argentina, 59, 133 (1971).

477. “Molecular Orbital Studies of Ethylenediamine Conformations”, M. S. Jhon, U. L. Cho, L. B. Kier, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 69,121 (1971).

478. “Theory of Optical Rotation”, D. J. Caldwell and H. Eyring, in ”Physical Methods of Chemistry”, Vol. 1, A. Weissberger and B. Rossiter, Ed., Wiley, New York, 1972.

479. “Effect of Electrolytes on Flow Properties of Aqueous Bentonite Suspension”, K. Park, T. Ree, and H. Eyring, J . Korean Chem. SOC., 15, 6 (1971).

480. “Application of Significant Structures Theory to Some Hydrocarbon Liquids”, G. L. Faerber, S. M. Breitling, A. MacKnight, and H. Eyring, J . Phys. Chem., 76, 731 (1972).

481. “Solubility of Gases in Water”, M. S. Jhon, Y. K. Sung, and H. E ring, Chem. Phys. Lett., 13, 36 (1972).

482. “Effects of &u and Related Radionuclides on Survival of the Adult Beagles”, B. J. Stover, D. R. Atherton, and H. Eyring, in “Radiobiology of Plutonium”, B. J. Stover and W. S. S. Jee, Ed., J. W. Press, Salt Lake City, 1972.

483. “Significant Structure Theory Applied to Liquid Metals”, S. M. Breitling and H. Eyring, in “Physics and Chemistry of Liquid Metals”, S. Z. Beer, Ed., Marcel Dekker, New York, 1972.

484. “Magnetic Circular Dichroism and Diamagnetic Molecules”, D. J. Caldwell and H. Eyring, Adu. Quantum Chem., 6, (1972).

485. “Significant Structure Theory of Surface Tension of the Alkali Metals”, C. C. Hsu and H. Eyring, Proc. Natl. Acad. Sci., 69, 1125 (1972).

486. “Significant Structure Theory of the Alkali Metals over the Normal Melting to Boiling Range”, C. C. Hsu, A. K. MacKnight, and H. Eyring, J. Phys. Chem., 76, 1612 (1972).

487. “Significant Liquid-Structure Theory of Viscosity and Self-Diffusion of the Alkali Metals”, C. C. Hus and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 69, 1342 (1972).

488. “Magnetic Circular Dichroism of Ferrocene and Sub- stituted Ferrocenes: The d-d Transitions”, D. Nielson, D. Boone, and H. Eyring, J. Phys. Chem., 76, 511 (1972).

489. “Magnetic Circular Dichroism of Molecules in Dense Media, I. Theory”, D. J. Shieh, S. H. Lin, and H. Eyring, J. Phys. Chem., 76, 1844 (1972).

490. “Physical Adsorption of the Quantum Gas”, U. S. Kim, R. Schmidt, M. S. Jhon, and H. Eyring, Proc. Natl. Acad. Sci., 69, 1690 (1972).

491. “Magnetic Circular Dichroism of Molecules in Dense Media: Benzene”, D. J. Shieh, S. H. Lin, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 69,2000 (1972).

492. “Optical and Conformational Properties of the 74p-D- Ribofuranosyl)Purines”, D. W. Miles, Wh. H. Inskeep, L. B. Townsend, and H. Eyring, Biopolymers, 11, 1181 (1972).

493. “The Circular Dichroism of 7-(P-~-Ribofuranosyl)- Purines”, D. W. Miles, W. H. Inskeep, L. B. Town- send, and H. Eyring, The Purines-Theory and Ex-


trochem. SOC., 121, 5 (1974). 515. “Principles of Chemical Kinetics”, H. Eyring, from the

15th edition of Encyclopedia Britannica, 1974. 516. “A Molecular Orbital Study of the Conformation of

Formycin”, D. W. Miles, D. L. Miles, and H. Eyring, J . Theor. Biol., 45, 577 (1974).

517. “Pyrazolopyrimidine Nucleosides, V. Methylation of the C-Nucleoside Antibiotic Formycin and Structural Elucidation of Products by Magnetic Circular Di- chroism Spectroscopy”, L. B. Twonsend, R. A. Long, J. P. McGraw, D. W. Miles, R. K. Robins, and H. Eyring, J . Org. Chem., 39, 2023 (1974).

518. “Anesthetic Interaction with a Model Cell Membrane”, I. Ueda, D. D. Shieh, and H. Eyring, Anesthesiolog), 41, 3 (1974).

519. “Stochastic Processes in Physical Chemistry”, S. H. Lin and H. Eyring, Annu. Reu. Phys. Chem., 25 (1974).

520. “The Significant Structure Theory Applied to Amorp- hous and Crystalline Polyethylene”, S. M. Ma, M. S. Jhon, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 71, 3096 (1974).

521. “Study of Vibronic and Born-Oppenheimer Couplings”, S. H. Lin and H. Eyring, Proc. Natl. Acad. Sci. C‘. S.A., 71, 3415 (1974).

522. “Study of Franck-Condon and Herzberg-Teller Approximations”, S. H. Lin and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 71, 3801 (1974).

523. “Potential Energy Surfaces”, H. Eyring and S. H. Lin, “Physical Chemistry: An Advanced Treatise”, Vol. VIA, H. Eyring, D. Henderson, and W. Jost, Ed., Academic Press, New York, 1974.

524. “Applications of the Survival Theory of Ecology”, D. C. Freeman, L. G. Klikoff, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 71, 4332 (1974).

525. “A Statistical Study of Optical Rotation for Synthetic D, L-Copolypeptide Solutions”, Proc. Natl. Acad. Sci. L’.S.A., 71, 4675 (1974).

526. “A Kinetic Study of the Aluminum Electrode in Molten 60 Mole Percent A1C13-40 Mole Percent NaCl at 453’ K, G. F. Uhlig, T. N. Andersen, S. Johns, and H. Eyring, Daehan Hwahak Hwoejee, J . Korean Chem. SOC., 18, 400 (1974).

527. “Our Changing Life Expectancy”, H. Eyring, J. Korean Chem. SOC., 14, 327 (1974).

528. “Magnetic Circular Dichorism of Molecules in Dense Media: Relation Between Magnetic Circular Di- chroism and Hammett’s Constants”, D. J. Shieh, S. T. Lee, Y. C. Yim, S. H. Lin, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 72, 452 (1975).

529. “The Significant Structure Theory Applied to a Meso- phase System”, S. M. Ma and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 72, 78 (1975).

530. “Slow Vibrationally Activated Reactions at High Temperatures”, H. Eyring and A. L. Leu, Chem. Eng. News, 27-31, April 14, 1975.

531. “Properties of Molten Magnesium Oxide”, A. L. Leu, S. M. Ma, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 72, 1026 (1975).

532. “Fall-Off from Extrapolated Values of All Chemical Reactions at Very High Temperatures”, H. Eyring and A. L. Leu, Proc. Natl. Acad. Sci. U.S.A., 72. 1717 (1975).

533. “Theory of Reaction Rates in Condensed Phases”, S. H. Lin, K. B. Li, and H. Eyring, in “Physical Chem- istry: An Advanced Treatise”, Vol. VII, H. Eyring, D. Henderson, and W. Jost, Ed., Academic Press, New York, 1975, Chapter 1, pp 1-56.

534. “Molecular Mechanism of General Anesthesia: Lipo- protein Conformation Change Theory”, J. W. Woodbury, J. S. D’Arrigo, and H. Eyring, Prog. An- esthesiol., 1 (1975).

535. “Physiological Mechanism of General Anesthesia: Sy- naptic Blockade”, J. W. Woodbury, J. S. D’Arrigo, and H. Eyring, Prog. Anesthesiol., 1 (1975).

536. “Disordering Effects of Anesthetics in Firefly Luciferase and in Lecithin Surface Monolayer”, Issaku Ueda,

Donald D. Shieh, and Henry Eyring, Prog. Anes- thesiol., 1 (195).

537. “NMR Study of the Interaction of General Anesthetics with 6, y-Dipalmitoyl-L-a-Lecithin Bilayers”, Donald D. Shieh, Issaku Ueda, and Henry Eyring, Prog. Anesthesiol., 1 (1975).

538. “Models in Optical Activity”, Dennis, J. Caldwell, and Henry Eyring, in “Theoretical Chemistry-Advances and Perspectives”, H. Eyring and D. Henderson, Ed., Academic Press, New York, 1975, p 53.

539. “Slow Vibrationally Activated Reactions a t High Temperatures” (Priestly Medal Address), Henry Eyring, Chem. Eng. News, 53, no. 1527 (1975).

540. ”Collisional Energy Transfer and Quenching of Elec- tronic Excitation”, Proc. Natl. Acad. Sci. U.S.A., 72, 4205 (1975).

541. “A Limitation to the Mixed Potential Concept of Metal Corrosion” (Copper in Oxygenated Sulfuric Acid Solutions), T. N. Anderson, M. H. Ghandehari, and H. Eyring, J . Electrochem. SOC., 122, No. 12 (1975).

542. “A Comprehensive Parametrization and Computational Program for the Analysis of MCD and Absorption Data”, D. J. Caldwell and H. Eyring, J . Chem. Phys., 64, No. 3 (1976).

543. “Magnetic Circular Dichroism of Molecules in Dense Media: Dimerization of Benzoic Acids”, Y. H. Yoon, S. T. Lee, D. J. Shieh, H. Eyring, and S. H. Lin, Chem. Phys. Lett., 38, 24 (1976).

544. “Molecular Mechanism of Inhibition of Firefly Lu- minescence by Local Anesthetics”, Issaku Ueda, Hiroshi Kamaya, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 73, 481 (1976).

545. “Physical Adsorption of Some Hydrocarbons-The Two Dimensional Liquid State”, Un Sik Kim, Yong Kiel Sung, Mu Shik Jhon, and Henry Eyring, Phys. Chem. Liquids, 5, 61 (1976).

546. “Physical Chemistry: The Past 100 Years”, Henry Eyring, Chem. Eng. News, ACS Centennial Issue, 88-104, April 1976.

547. “Electronic Absorption and Magnetic Circular Di- chroism Spectra of Ferrocene”, Dennis Nielson, Morris Farmer, and Henry Eyring, J. Phys. Chem., 80, No. 7 (1976).

548. “The Electrochemical Reduction of Oxygen on Copper in Dilute Sulphuric Acid Solutions”, M. H. Ghande- hari, T. N. Andersen, and H. Eyring, Pergamon Press, Corros. Sci., 16, 123 (1976).

549. “A Limitation to the Mixed Potential Concept of Metal Corrosion”, T. N. Andersen, M. H. Ghandehari, and H. Eyring, J. Electrochem. SOC., 123, 1580 (1976).

550. “Combined Effects of Dissociable and Undissociable Local Anesthetics upon ATP-Induced Firefly Bioluminescence”, Hiroshi Kamaya, Issaku Ueda, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 73,1868 (1976).

551. “Comparative Study by Circular Dichroism of the Conformation of Deazapurine Nucleosides and That of Common Purine Nucleosides”, D. W. Miles, L. B. Townsend, P. Redington, and H. Eyring, h o c . Natl. Acad. Sci. U.S.A., 73, 2384 (1976).

552. “Medium-Induced Radiationless Transitions and Effect of Solvent on Radiationless Transitions”, S. H. Lin, S. T. Lee, Y. H. Yoon, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 73, 2533 (1976).

553. “Magnetic Circular Dichroism of Molecules in Dense Media-Spin-Forbidden Transitions of Carbonyl Molecules”, Y. H. Yoon, S. T. Lee, S. H. Lin, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 73, 2964 (1976).

554. ”Multiple Factor Analysis of the Action of Local Anesthetics”, Hao-Chou Lin, Issaku Ueda, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 73,3726 (1976).

555. “Liquid Theory and the Structure of Water”, Mu Shik Jhon and Henry Eyring, Annu. Rev. Phys. Chen., 27, 45 (1976).

556. “Nuclear Magnetic Resonance Studies of the Interaction of General Anesthetics with 1,2-Dihexadecyl-sn-


557.

558.

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glycero-3-phosphorylcholine Bilayer”, Donald D. Shieh, Issaku Ueda, Hao-Chou Lin, and Henry Eyr- ing, Proc. Natl. Acad. Sci. U.S.A., 73, 3999 (1976).

“Application of Significant Structure Theory of Liquids to Critical Phenomena. Calculation of Critical-Point Exponents”, S. M. Ma, Henry Eyring, and S. H. Lin, Chem. Phys. Lett., 43, 420 (1976).

“Theoretical Studies of the Conformational Properties of Ribavirin”, Douglas L. Miles, Daniel W. Miles, Patrick Redington, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 73, 4257 (1976).

“Significant Structure Theory Applied to Phase Separation”, Such-Hyun Lee, Mu Shik Jhon, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 74,lO (1977).

“Reaction Rate Theory in Bioluminescence and Other Life Phenomena”, Frank H. Johnson, Henry Eyring, and Betsy Jones Stover, Annu. Rev. Biophys. Bioeng., 6, 111 (1977).

“A Theoretical Investigation of Symmetry-Forbidden Transitions in Magnetic Circular Dichorism and Electronic Spectra of Benzene”, S. T. Lee, Y. H. Yoon, H. Eyring, and S. H. Lin, J . Chem. Phys., 66, 4349 (1977).

“Circular Dichroism of Adenosine Dinucleotides”, J. W. Pettegrew, D. W. Miles, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 74, 1785 (1977).

“Conformational Basis for the Activation of Adenylate Cyclase by Adenosine”, D. L. Miles, D. W. Miles, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 74, 2194 (1977).

“Effects of Oxygen on the Mechanism of Cadmium Dissolution in Sulfate Solutions”, T. N. Andersen, M. H. Ghandehari, E. Feng, and H. Eyring, J . Electro- chem. SOC., 124, 977 (1977).

“Single Partition Function for Three Phases”, Shao-mu Ma, Y. H. Yoon, S. T. Lee, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 74, 2498 (1977).

“Quantum Statistical Theory of Optical Phenomena”, S. H. Lin and H. Eyring, Proc. Natl. Acad. Sci. U. S.A., 74, 3105 (1977).

“A General Treatment of Relaxation Phenomena”, S. H. Lin and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 74, 3623 (1977).

“A Conformational Basis for the Selective Action of Ara-Adenine”, Douglas L. Miles, Daniel W. Miles, Patrick Redington, and Henry Eyring, J. Theor. Biol., 67, 499 (1977).

“Men, Mines, and Molecules”, Henry Eyring, Annu. Rev. Phys. Chem., 28, 1 (1977).

“Significant Structure Theory Applied to Liquid He- lium-3”, Youngie Oh, Mu Shik Jhon, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 74,4739 (1977).

“Advantages of Two-Component Chemicals in Munitions”, Henry Eyring, Binary Weapons and the Problem of Chemical Disarmament, Symposium sponsored by the American Chemical Society, August 31, 1976.

“Reversible and Irreversible Inhibition by Anesthetics of the Calcium-Induced Luminescence of Aequorin”, Hroshi Kamaya, Issaku Ueda, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 74, 5534 (1977).

“Josiah Willard Gibbs”, Henry Eyring, Proceedings of the Robert A. Welch Foundation Conferences on Chemical Research, XX. American Chemistry- Bicentennial, Houston, TX, November 8-10, 1976.

“A Model of the Liquid State. Three Phase Partition Functions”, Mu Shik Jhon and Henry Eyring in “Theoretical Chemistry Advances and Perspectives”, Vol. 3, Henry Eyring and Douglas Henderson, Ed., Academic Press, New York, 1978.

“Starvation Kinetics”, Henry Eyring, Science, 199,430 (1 978).

“A Conformational Basis for the Antiviral Inactivity of Tetrazole Ribonucleosides”, D. L. Miles, D. W. Miles, and H. Eyring, Biochim. Biophys. Acta, 518, 17

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(1978). “Ion Flow through a Membrane: Concentration and

Current Responses to a Step Potential Change”, Thomas r. Hays, Charles Q. Buckwalter, Jr., Sheng H. Lin, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 75, 1612 (1978).

“Ion Flow through a Membrane: Effect of Chemical Reaction on Time Dependence”, Thomas R. Hays, Sheng H. Lin, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 75, 2064 (1978).

“Electric Double Layer Dynamics by High-Field Elec- troluminescence in Aqueous Solution”, Z. A. Schelly, K. Lundy-Douglas, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 75, 2549 (1978).

”Hysteresis Effects of C1H4 and C2H4 in the Regions of the Solid-Phase Transitions”, Shao-mu Ma, S. H. Lin, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 75, 4664 (1978).

“Temperature Dependence of Rate Constants of Thermal Activated Processes and Vibrational Re- laxation in S w a t i o n Kinetics”, S. M. Ma, H. Eyring, S. H. Lin, Dale Wutz, and Y. Fujimura, Chem. Phys. Lett., 58, 159 (1978).

“Localized Orbitals in Spectroscopy”, Dennis Caldwell and Henry Eyring, Adu. Quantum Chem., 2, 93 (1978).

“Conformational Effects of Purine N3 Electronic Properties on Drug Design and Cyclic Nucleotide Metabolism”, Douglas L. Miles and Henry Eyring, Int. J . Quantum Chem., Quantum Biol. Symp., 5,173 (1978).

“About Linus Pauling”, Henry Eyring, Int. J . Quant. Chem., Quantum Biol. Symp., 5, 11 (1978).

“Conformation of Nucleosides: Circular Dichroism Study on the Syn-Anti Conformational Equilibrium of 2-Substituted Benzimidazole Nucleosides”, D. W. Miles, L. B. Townsend, D. L. Miles, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 76, 553 (1979).

“Antagonism Between High Pressure and Anesthetics in the Thermal Phase-Transition of Dipalmitoyl Phosphatidylcholine Bilayer”, H. Kamaya, I. Ueda, P. S. Moore, and Henry Eyring, Biochim. Biophys. Acta, 550, 131 (1979).

“Interferon Induction: A Conformational Hypothesis”, Douglas L. Miles, Daniel W. Miles, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 76, 1018 (1979).

“Conformational Component of Structure-Activity Relationships in Nucleosides”, Douglas L. Miles, Daniel W. Miles, and Henry Eyring, in “Physiological and Regulatory Functions of Adenosine and Adenine Nucleotides”, H. P. Baer and G. I. Drummond, Ed., Raven Press, New York, 1979 pp 283-94.

“Thermodynamic Properties of Solid C2H”, Shao-mu Ma and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 76, 2495 (1979).

“Density Matrix Method for Orbital Localization”, Dennis Caldwell, Patrick Redington, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 76, 3042 (1979).

“Effect of Molecular Rotation on the Vibration-Vibra- tion Energy Transfer in Condensed Media, S. H. Lin, T. R. Hays, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 76, 3571 (1979).

“A Theory of Light-Induced Explosion”, S. H. Lin, W. B. Richardson, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 76, 4162 (1979).

“Hydrophilic Region of Lecithin Membranes Studied by Bromothymol Blue and Effects of an Inhalation Anesthetic, Enflurane”, T. Mashimo, I. Ueda, D. Shieh, H. Kamaya, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 76, 5114 (1979).

“Hydrogen Ion Concentration versus pH”, Issaku Ueda and Henry Eyring, Anesth. Analg. (Cleveland), 58, 487 (1979).

“Mechanisms of Triboluminescence” S. H. Lin, D. Wutz, Z. Z. Ho, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 77, 1245 (1980).


596. “Significant Structure Theory Applied to Electrolyte Solution”, Jong Myung ee, Mu Shik Jhon, and Henry Eying, Proc. Natl. Acad. Sci. U.S.A., 76, 5421 (1979).

597. “Elementary Transition State Theory of the Soret and Dufour Effects”, Robert G. Mortimer and Henry Eying, Proc. Natl. Acad. Sci. U.S.A., 77, 1728 (1980).

598. “Similarity and Differences between Conditions for Initiation and Failure of Deontation”, Henry Eyring, Franklin E. Walker, Shao-mu Ma, and Nancy Coon, Proc. Natl. Acta. Sci. U.S.A., 77, 2358 (1980).

599. ”Calculations of the Circular Dichroism of Adenosine Derivatives Constrained in the syn Form”, Daniel W. Miles, Morris Farmer, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 77, 3398 (1980).

600. “Application of the Eyring-Stover Survival Theory to Soil-Related Functions”, L. H. Wullstein, R. Bjork- lund, and Henry Eyring, Proc. Natl. Acad. Sci. U. S.A., 77, 3767 (1980).

601. “A Theoretical Study of Resonance Raman Scattering from Molecules: High Pressure Effect”, Y. Fujimura, S. H. Lin, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 77, 5032 (1980).

602. “Inductive and Deductive Science”, Henry Eyring and Dennis Caldwell, Math. Modell., 1, 33 (1980).

603. “Physical Chemistry of the Interaction of Local An- esthetics with Model and Natural Membranes”, Is- saku Ueda, Hajime Yasuhara, Donald D. Shieh, Hao-Chou Lin, Sheng H. Lin, and Henry Eyring, Prog. Anesthesiol., 2, 285 (1980).

604. “General Anesthesia and Interfacial Water”, Hroshi Kamaya, Issaku Ueda, and Henry Eyring, Prog. An- esthesiol., 2, 429 (1980).

605. “A Theory of Distortion of the Reaction Zone”, Nancy Coon, Shao-mu Ma, Patrick K. Redington, Billings Brown, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 77, 5575 (1980).

606. “Pressure Anesthetic Antogonism on the Phase Sepa- ration of Non-Ionic Surfactant Micelles”, Shoji Kaneshina, Issaku Ueda, Hiroshi Kamaya, and Henry Eyring, Biochim. Biophys. Acta, 603, 237 (1980).

607. “On the Density Matrix Approach of Intramolecular Relaxation Processes”, S. H. Lin and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 78, 2013 (1981).

608. “Wavelength Regulation in Rhodopsin: Effects of Di- poles and Amino Acid Side Chains”, Thomas R. Hays, S. H. Lin, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 77, 6314 (1980).

609. “An Explicit Model for the NMR Coupling Constant of the Hydrogen Molecule and the Breakdown of INDO-FPT”, Patrick Redington, Dennis Caldwell, and Henry Eyring, Math. Modell., 2, 141 (1981).

610. “Derivation of a Formula for the Resonance Integral for a Nonorthogonal Basis Set“, Yung-Chang Yim and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 78,2649

(1981). 611. “Reaction Rates Including Fast Reactions in Energetic

Systems”, C. Capellos and R. F. Walker, Ed., 1981, pp 47-54.

612. “Some Factors Influencing the Transition from Defla- gration to Detonation”, Henry Eyring in “Fast Re- actions in Energetic Systems”, C. Capellos and R. F. Walker, Ed., Reidel, New York, 1981, pp 379-400.

613. ”Temperature and Pressure Dependence of Viscosity of Quantum Liquid 4He According to Significant Structure Theory”, Ryong Ryoo, Mu Shik Jhon, and Henry Eying, Proc. Natl. Acad. Sci. U.S.A., 77,6314 (1980).

614. “Implications of a Circular Dichroism and Theoretical Investigation of Ribavirin-Related Derivatives in Drug Design”, H. Kamaya, Y. Suezaki, I. Ueda, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 78, 3572 (1981).

615. “Anesthetics and High-pressure Interaction upon Elastic Properties of a Polymer Membrane”, Hiroshi Kamaya, Yukio Suezaki, Issaku Ueda, and Henry Eying, Proc. Natl. Acad. Sci. U.S.A., 78,3572 (1981).

616. “Quantum Statistical Mechanical Theory of Diffusion and Reaction on Solid Surfaces”, S. H. Lin, Alan R. Ziv, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 78, 3989 (1981).

617. “Modeling of Biological Reactions”, Shao-mu Ma, Henry Eyring, Issaku Ueda, and Shoji Kaneshina, Znt. J . Chem. Kinet., 13, 913 (1981).

618. “Reaction Kinetics in Living Systems”, Henry Eyring, Shao-mu Ma, and Issaku Ueda, Proc. Natl. Acad. Sci. U.S.A., 78, 5549 (1981).

619. “Radial Distribution Function of Liquid Argon Ac- cording to Significant Structure Theory”, Byoung Jip Yoon, Mu Shik Jhon, and Henry Eyring, Proc. Natl. Acad. Sci. U.S.A., 18, 6588 (1981).

620. “Modelling Magnetic Circular Dichroism with Appli- cation to Imidazoles”, Yung-Chang Yim, D. J. Cald- well, and Henry Eying, Mathematical Modelling, 2, 283 (1981).

621. “Optical Activity and Electronic Absorption Spectra of Some Simple Nucleosides Related to Cytidine and Uridine: All Valence-Shell Molecular Orbital Calculations”, Daniel W. Miles, Patrick K. Redington, D. L. Miles, and Henry Eying, Proc. Natl. Acad. Sci. U.S.A., 78, 7521 (1981).

622. “Rate Constant of Vibrational Redistribution in Mol- ecules Using Adiabatic Approximation Model”, S. H. Lin, Zhang Xing-Guo, Qian- Zhi-Ding, Li Xing-Wen, and H. Eyring, Proc. Natl. Acad. Sci. U.S.A., 79,1356 (1982).

623. Out of chronological order: “Fortschritte in der Theorie der Flussigkeiten”, T. S. Ree, T. Ree, and H. Eyring, Angew. Chem., 4, 923 (1965).

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