citations ipc 2015 · 2016. 2. 13. · ns yuritsyn, nucleation of crystals in...

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Всички цитати

Звено: ( ИФХ ) Институт по физикохимия „Академик Ростислав Каишев” Година: 2015 ÷ 2015

Брой цитирани публикации: 576 Брой цитиращи източници: 1762

1959

1. Scheludko, A., Exerowa, D., Uber den elektrostatischen Druck in Schaumfilmen aus wasserigen Elektrolytlosungen. Kolloid-Zeitschrift, 165, 2, Springer-Verlag, 1959, ISSN:0303402X, DOI:10.1007/BF01809974, 148 - 151

Цитира се в:

1. Danov, K.D., Kralchevsky, P.A., Radulova, G.M., Basheva, E.S., Stoyanov, S.D., Pelan, E.G., Shear rheology of mixed protein adsorption layers vs their structure studied by surface force measurements, Advances in Colloid and Interface Science 222, 148-161 (2015)

1960

2. Scheludko, A., Exerowa, D., Uber den elektrostatischen und van der Waalsschen zusatzlichen Druck in wasserigen Schaumfilmen. Kolloid-Zeitschrift, 168, 1, Springer-Verlag, 1960, ISSN:0303402X, DOI:10.1007/BF01513550, 24 - 28


2. Dhayal, S.K., Delahaije, R.J.B.M., De Vries, R.J., Gruppen, H., Wierenga, P.A., Enzymatic cross-linking of α-lactalbumin to produce nanoparticles with increased foam stability, Soft Matter, 11 (40), pp. 7888-7898 (2015)

3. Peng, T., Peng, K., Li, Q., Methodology for disjoining pressure of free water nanofilms, Journal of Physical Chemistry C, 119 (25), pp. 14273-14280 (2015)

1969

3. Kashchiev, D., Nucleation at variable supersaturation. Surface Science, 18, 2, 1969, ISSN:396028, 293 - 297


4. M.A.Duran-Olivencia, J.F.Lutsko, Mesoscopic nucleation theory for confined systems: A one-parameter model, Phys.Rev. E 91(2015)022402.

5. MA Durán-Olivencia, JF Lutsko, Unification of classical nucleation theories via unified Ito-Stratonovich stochastic equation, Phys.Rev. E 92(2015)032407.

4. Kashchiev, D., Nucleation at existing cluster size distributions. Surface Science, 18, 2, 1969, ISSN:396028, 389 - 397


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6. NS Yuritsyn, Influence of preformed nuclei on crystal nucleation kinetics in soda–lime–silica glass, J.Non-Cryst.Solids 427(2015)139.

5. Exerowa, D., "Effect of adsorption, ionic strength and pH on the potential of the diffuse electric layer?. Kolloid-Zeitschrift & Zeitschrift f?r Polymere, 232, 1, Steinkopff-Verlag, 1969, ISSN:0303402X, DOI:10.1007/BF01500168, 703 - 710


7. Lech, F.J., Wierenga, P.A., Gruppen, H., Meinders, M.B.J., Stability properties of surfactant-free thin films at different ionic strengths: Measurements and modeling, Langmuir, 31 (9), pp. 2777-2782 (2015)

6. Kashchiev, D., Solution of the non-steady state problem in nucleation kinetics. Surface Science, 14, 1, 1969, ISSN:396028, 209 - 220


8. L.S.A.Gallo, T.D.M.Mosca, B.H.Teider, I.Polyakova, A.C.M.Rodrigues, E.D.Zanotto, V.M.Fokin, “Effects of lithium oxide on the crystallization kinetics of Na< sub> 2 O• 2CaO• 3SiO< sub> 2 glass”, J.Non-Cryst.Sol. 408(2015)102.

9. Chr.N.Nanev, “Theory of Nucleation”, in: “Handbook of Crystal Growth”, Ed. T.Nishinaga, Elsevier, Amsterdam, 2015, p.315.

10. NS Yuritsyn, Nucleation of crystals in sodium-calcium-silicate glasses of the metasilicate section, Glass Phys.Chem. 41(2015)112.

11. A.V.Mokshin, B.N.Galimzyanov, Scaling law for crystal nucleation time in glasses, J.Chem.Phys. 142 (2015)104502.

12. S Kruger, J Deubener, Lag time to crystal nucleation of supercooled lithium disilicate melts: A test of the classical nucleation theory, J.Non-Crys.Sol. 426(2015)1.

13. CN Nanev, VD Tonchev, Sigmoid kinetics of protein crystal nucleation, J.,Cryst.Growth 427(2015)48.

14. NS Yuritsyn, Influence of preformed nuclei on crystal nucleation kinetics in soda–lime–silica glass, J.Non-Cryst.Solids 427(2015)139.

1972

7. Rashkov, St., Stoichev, D., Tomov, I., Influence of Current Density and Temperature on the Morphology and Preferred Orientation of Electrodeposited Copper Coatings. Electrochimica Acta, 17, 11, Elsevier, 1972, ISSN:0013-4686, DOI:10.1016/0013-4686(72)80020-3, 1955 - 1964. SJR:1.288, ISI IF:4.504


15. М. Г. Георгиева, “Безтоково отлагане на медни композитни покрития върху полимерни подложки”, Дисертация, “Доктор”, ИФХ-БАН, София

8. Markov, I., Kashchiev, D., Nucleation on active centres. I. General theory. Journal of Crystal Growth, 16, 2, 1972, ISSN:220248, DOI:10.1016/0022-0248(72)90109-1, 170 - 176


16. ND Nikolic, ER Ivanovic, G Brankovic, UC Lacnjevac, SI Stevanovic, JS Stevanovic, MG Pavlovic, Electrochemical and Crystallographic Aspects of Lead Granular Growth,

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Metall.Mater.Trans. B 46(2015)1760.

9. Kashchiev, D., Nucleation in external electric field. Journal of Crystal Growth, 13-14, C, 1972, ISSN:220248, DOI:10.1016/0022-0248(72)90074-7, 128 - 130


17. P.Hicher, R.Haumont, R.Saint-Martin, P.Berthet, A.Revkolevschi, “Experimental evidence that a high electric field acts as an efficient external parameter during crystalline growth of bulk oxide”, J.Cryst.Growth 409(2015)23.

1973

10. Stoichev, D., Rashkov, St., Effect of Some Addends on the Electrolytic Deposition and Structure of Copper Coatings from Acid Solutions. Compt. Rand. Acad. Bulg.Sci, 26, 1973, 243 - 246


18. М. Г. Георгиева, “Безтоково отлагане на медни композитни покрития върху полимерни подложки”, Дисертация, “Доктор”, ИФХ-БАН, София (Юли, 2015 г.).

1974

11. Manev, E., Scheludko, A., Exerowa, D., Effect of surfactant concentration on the critical thicknesses of liquid films. Colloid and Polymer Science Kolloid Zeitschrift & Zeitschrift f?r Polymere, 252, 8-Jul, Steinkopff-Verlag, 1974, ISSN:0303402X, DOI:10.1007/BF01558157, 586 - 593


19. Deng, Q., Li, H., Li, C., Lv, W., Li, Y. Enhancement of foamability and foam stability induced by interactions between a hyperbranched exopolysaccharide and a zwitterionic surfactant dodecyl sulfobetaine, RSC Advances, 5 (76), pp. 61868-61875 (2015)

1975

12. Kashchiev, D. Kinetics of the initial stage of electrolytic deposition of metals. II. Potentiostatic conditions. , 1975


20. A Zimmer, L Broch, C Boulanger, N Stein, Growth Mechanism during the Early Stages of electrodeposition of Bismuth telluride films, Electrochim.Acta

13. Kashchiev, D. Kinetics of the initial stage of electrolytic deposition of metals. I. General theory. , 1975


21. A Zimmer, L Broch, C Boulanger, N Stein, Growth Mechanism during the Early Stages of electrodeposition of Bismuth telluride films, Electrochim.Acta 174(2015)376.

1976

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14. Rashkov, St., Stoichev, D., Influence of some surface active additives on morphology and texture ofcopper electroplates. Izestiya po Khimiya B’lgarska AN, 9, 1976, 633 - 652



1977

15. Gutzow, I., The mechanism of crystal growth in glass forming systems. Journal of Crystal Growth, 42, C, 1977, ISSN:220248, DOI:10.1016/0022-0248(77)90172-5, 15 - 23. ISI IF:1.698


23. J. Gerges, F. Affouard, Predictive Calculation of the Crystallization Tendency of Model Pharmaceuticals in the Supercooled State from Molecular Dynamics Simulations, Journal of Physical Chemistry B 119, 33 (2015) 10768-10783.

1978

16. Stoychev, D., Tomov, I., Vitanova, I., Rashkov, St., Determination of the size of the crystallites that form bright galvanic copper coatings. Surface Technology, 7, 6, Elsevier, 1978, ISSN:03764583, DOI:10.1016/0376-4583(78)90021-3, 433 - 441


24. I Djaghout, AM Affoune, ML Chelaghmia and M. Bendjaballah, Experimental Investigation of Nickel Electrodeposits Brightness in the Presence of Surfactants: Modeling, Optimization and Polarization Studies, Portugaliae Electrochimica Acta , 33(4), 209-222, 2015

25. М. Г. Георгиева, “Безтоково отлагане на медни композитни покрития върху полимерни подложки”, Дисертация, “Доктор”, ИФХ-БАН, София

17. Stoychev, D.S., Vitanova, I., Rashkov, St., Vitanov, T., Adsorption of substances acting as brighteners in the electrolytic deposition of copper. Surface Technology, 7, 6, 1978, ISSN:0257-8972, DOI:10.1016/0376-4583(78)90020-1, 427 - 432. SJR:0.96, ISI IF:1.998


26. T. HERNANDEZ-SELVA, D. L. ENGELBERG, F. SCENINI, D. FOX AND A. MCCLUSKY, Manufacturing technology for implementing geological disposal: electroforming of copper canisters, Mineralogical Magazine, Vol. 79(6), pp. 1521–1528, 2015

27. I. Djaghout , A. M. Affoune , M. L. Chelaghmia and M. Bendjaballah, Experimental Investigation of Nickel Electrodeposits Brightness in the Presence of Surfactants: Modeling, Optimization and Polarization Studies, Port. Electrochim. Acta vol.33 no.4, 2015

1979

18. Petkanchin I., Bruckner R., Sokerov S., Radeva Ts., Comparison of electric light scattering and birefringence for polydisperse suspensions. Colloid and Polymer Science, 257, 1979, 160 - 165. ISI IF:1.865

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28. Lu J., Zhou W., Chen J., Jin Y., Walters K.B., Ding S., Pickering emulsions stabilized by palygorskite particles grafted with pH-responsive polymer brushes, RSC Advances 5(13) 9416-9424

19. Exerowa, D., Zacharieva, M., Cohen, R., Platikanov, D., Dependence of the equilibrium thickness and double layer potential of foam films on the surfactant concentration. Colloid and Polymer Science Kolloid-Zeitschrift & Zeitschrift f?r Polymere, 257, 10, Steinkopff-Verlag, 1979, ISSN:0303402X,DOI:10.1007/BF01761121, 1089 - 1098


29. Firouzi, M., Howes, T., Nguyen, A.V., A quantitative review of the transition salt concentration for inhibiting bubble coalescence, Advances in Colloid and Interface Science, 222, pp. 305-318 (2015)

20. Kashchiev, D., Recent progress in the theory of thin film growth. Surface Science, 86, C, 1979, ISSN:396028, DOI:10.1016/0039-6028(79)90373-X, 14 - 27


30. F Borghi, Engineering the structural and functional properties of transition metal oxide interfaces by cluster assembling, Ph.D.Thesis, Universita degli Studi di Milano, Milano, 2015.

1981

21. Milchev, A., Paunov, M., A unified model description of mobile and localized adsorption. II. Adsorption on crystalline surfaces - a gradual transition between mobile and localized adsorption. Surface Science, 108, 1, 1981, ISSN:396028, DOI:10.1016/0039-6028(81)90356-3, 38 - 48


31. Pinto, O. A., Pasinetti, P. M., Ramirez-Pastor, A. J., Nieto, F. D. (2015). The adsorption of a mixture of particles with non-additive interactions: a Monte Carlo study. Physical Chemistry Chemical Physics, 17(5), 3050-3058.

22. Ma?ysa, K., Cohen, R., Exerowa, D., Pomianowski, A., Steady-state foaming and the properties of thin liquid films from aqueous alcohol solutions. Journal of Colloid And Interface Science, 80, 1, 1981, ISSN:219797, DOI:10.1016/0021-9797(81)90153-3, 1 - 6


32. Bournival, G., de Oliveira e Souza, L., Ata, S., Wanless, E.J., Effect of alcohol frothing agents on the coalescence of bubbles coated with hydrophobized silica particles, Chemical Engineering Science 131, pp. 1-11 (2015)

1982

23. Armyanov, S., Vangelova, T., Stoyanchev, R., Pretreatment of Al-Mg alloys for electrodeposition by immersion zinc and electroless nickel. Surface Technology, 17, 2, 1982, ISSN:3764583, DOI:10.1016/0376-4583(82)90011-5, 89 - 100


33. S. R. Anvari, S. M. Monirvaghefi, M. H. Enayati, Novel Investigation on Nanostructured

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Multilayer and Functionally Graded Ni-P Electroless Coatings on Stainless Steel J Mater. Engineer. & Performance, 24 (6) 2373-2381 (2015).

24. Kashchiev, D. On the relation between nucleation work, nucleus size and nucleation rate. J.Chem.Phys., 1982


34. K.Mullick, A.Bhabhe, A.Manka, J.Wolk, R.Strey, B.E.Wyslouzil, “Isothermal nucleation rates of n-propanol, n-butanol, and n-pentanol in supersonic nozzles: critical cluster sizes and the role of coagulation”, J.Phys.Chem. B 119(2015)9009.

35. M.Olin, T.Ronkko, M. Dal Maso, CFD modeling of a vehicle exhaust laboratory sampling system: sulfur driven nucleation and growth in diluting diesel exhaust, Atmos.Chem.Phys.Discuss. 15(2015)2905.


37. P.G.Vekilov, “Nucleation and Growth Mechanisms of Protein Crystals”, in: “Handbook of Crystal Growth”, Ed. T.Nishinaga, Elsevier, Amsterdam, 2015, p.795.

38. G Ren, Y Wang, Saturated Sodium Chloride Solution under an External Static Electric Field: a Molecular Dynamics Study, Chin.Phys. B 24(2015)126402.

39. J Li, Q Wu, J Wu, Synthesis of Nanoparticles via Solvothermal and Hydrothermal Methods, in: “Handbook of Nanoparticles”, Ed. M. Aliofkhazraei, Springer, Berlin, 2015.

40. K Neitola, Experimental studies on nucleation and new particle formation, Ph.D.Thesis, Finnish Meteorological Institute, Helsinki, 2015.

41. MALJ Fransen, Experimental study of homogeneous water nucleation in a pulse-expansion wave tube, Ph.D.Thesis, Eindhoven University of Technology, Eindhoven, 2015.

42. R Gan, W Yan-Ting, Saturated sodium chloride solution under an external static electric field: A molecular dynamics study, Chin.Phys. B 24(2015)126492.

43. CFD modeling of a vehicle exhaust laboratory sampling system: sulfur driven nucleation and growth in diluting diesel exhaust M Olin, T Ronkko, M Dal Maso, Atmos.Chem.Phys. 15(2015)5305.

1983

25. Milchev, A., The quasichemical approximation for a lattice gas model with nonadditive lateral interactions. The Journal of Chemical Physics, 78, 4, 1983, ISSN:219606, 1994 - 1998


44. Pinto, O. A., Pasinetti, P. M., Ramirez-Pastor, A. J., & Nieto, F. D. (2015). The adsorption of a mixture of particles with non-additive interactions: a Monte Carlo study. Physical Chemistry Chemical Physics, 17(5), 3050-3058.

26. Kashchiev, D., Exerowa, D., Bilayer lipid membrane permeation and rupture due to hole formation. BBA - Biomembranes, 732, 1, 1983, ISSN:52736, DOI:10.1016/0005-2736(83)90196-7, 133 - 145


45. R.Zappacosta, A.Fontana, A.Credi, A.Arduini, A.Secchi, Incorporation of Calix [6] Arene Macrocycles and (Pseudo) Rotaxanes in Bilayer Membranes: Towards Controllable Liposomal Artificial Channels, Asian J.Org.Chem. 4(2015)262.

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46. VA Hernandez, EK Eriksson, K Edwards, Ubiquinone-10 Alters Mechanical Properties and Increases Stability of Phospholipid Membranes, BBA Biomembr. 1848(2015)2233.

47. P Bakardzhiev, D Momekova, K Edwards, S Konstantinov, S Rangelov, Novel Polyglycidol-Lipid Conjugates Create a Stabilizing Hydrogen-Bonded Layer around Cholesterol-Containing Dipalmitoyl Phosphatidylcholine Liposomes, J.Drug Deliv.Sci.Technol. 29(2015)90.

1984

27. Exerowa, D., Lalchev, Z., Kashchiev, D., Stability of foam lipid bilayers of amniotic fluid. Colloids and Surfaces, 10, 1, 1984, ISSN:1666622, 113 - 121


48. E.Parra, J. Perez-Gil, “Structure-function relationships and mechanical properties of pulmonary surfactant membranes”, Chem.Phys.Lipids 185(2015)153.

28. Penkov, I., Gutzow, I., Nucleation kinetics in a glass-ceramic enamel. Journal of Materials Science, 19, 1, Kluwer Academic Publishers, 1984, ISSN:222461, DOI:10.1007/BF00553013, 233 - 244. ISI IF:2.371


49. L. Vidal, E. Joussein, M. Colas, J. Absi, S. Rossignol, Effect of the addition of ammonium molybdate on metakaolin-based geopolymer formation: Shrinkage and crystallization, Powder Technology 275 (2015) 211-219.

29. Markov, I., Milchev, A., "The effect of anharmonicity in epitaxial interfaces. III. Energy, mean dislocation density and mean strain?. Surface Science, 145, 3-Feb, 1984, ISSN:396028, DOI:10.1016/0039-6028(84)90085-2, 313 - 328


50. Lupichev, L. N., Savin, A. V., & Kadantsev, V. N. (2015). Topological Solitons. In Synergetics of Molecular Systems (pp. 53-121). Springer International Publishing.

1985

30. Milchev, A. Monte Carlo study of a lattice gas model with non-additive lateral interactions. , 1985


51. Pinto, O. A., Pasinetti, P. M., Ramirez-Pastor, A. J., & Nieto, F. D. (2015). The adsorption of a mixture of particles with non-additive interactions: a Monte Carlo study. Physical Chemistry Chemical Physics, 17(5), 3050-3058.

31. Stoychev, D., Tomov, I., Vitanova, I., Recovery and recrystallization of electrodeposited bright copper coatings at room temperature. I. Microhardness in relation to coating structure. Journal of Applied Electrochemistry, 15, 6, Kluwer Academic Publishers, 1985, ISSN:0021891X, DOI:10.1007/BF00614363, 879 - 886. ISI IF:2.409


52. Yazhou Zhang, Guifu Ding, Hong Wang, Ping Cheng, Microstructure of Electrodeposited Cu Micro-cylinders in High-Aspect-Ratio Blind Holes and Crystallographic Texture of the Cu

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32. Tomov, I., Stoychev, D., Vitanova, I., Recovery and recrystallization of electrodeposited bright copper coatings at room temperature. II. X-ray investigation of primary recrystallization. Journal of Applied Electrochemistry, 15, 6, Kluwer Academic Publishers, 1985, ISSN:0021891X, DOI:10.1007/BF00614364, 887 - 894. ISI IF:2.409


54. М. Г. Георгиева,“Безтоково отлагане на медни композитни покрития върху полимерни подложки”, Дисертация, “Доктор”, ИФХ-БАН, София (Юли, 2015 г.)

33. Markov, I., Milchev, A., Theory of epitaxy in a Frank-van der Merwe model with anharmonic interactions. Thin Solid Films, 126, 2-Jan, 1985, ISSN:406090, DOI:10.1016/0040-6090(85)90179-8, 83 - 93


55. Lupichev, L. N., Savin, A. V., Kadantsev, V. N. (2015). Topological Solitons. In Synergetics of Molecular Systems (pp. 53-121). Springer International Publishing

34. Mirkova, L., Rashkov, St., Nanev, Chr., The levelling mechanism during bright acid copper plating. Surface Technology, 15, 3, 1985, ISSN:3764583, DOI:10.1016/0376-4583(85)90060-3, 181 - 190


56. ABOUZEID, F. M., Influence of Vitamin C on Copper Electrorefining from Acidic Solution of Copper Sulfate, Asian Journal of Chemistry . 2015, Vol. 27 Issue 12, p4337-4343. 7p.

35. Gutzow, I., Kashchiev, D., Avramov, I., Nucleation and crystallization in glass-forming melts: Olds problems and new questions. Journal of Non-Crystalline Solids, 73, 3-Jan, 1985, ISSN:223093, DOI:10.1016/0022-3093(85)90370-9, 477 - 499


57. Rozwadowski, T., Massalska-Arodź, M., Kolek, A., Grzybowska, K., Bak, A., Chedowska, K., Kinetics of cold crystallization of 4-cyano-3-fluorophenyl 4-butylbenzoate (4cfpb) glass forming liquid crystal. i. nonisothermal process as studied by microscopic, calorimetric, and dielectric methods, Crystal Growth and Design , 15 ( 6 ) (2015) pp. 2891 - 2900

1986

36. Kashchiev, D. Hole-mediated stability and permeability of bilayers. , 1986


58. R Todorov, Thin liquid films in biomedical studies, Curr.Opin.Colloid Interface Sci. 20(2015)130.

37. Milchev, A. Fluctuations and lack of self-averaging in the kinetics of domain growth. , 1986


59. Gazit, Snir. "Dynamics and Conductivity Near Quantum Criticality." Dynamics Near Quantum Criticality in Two Space Dimensions. Springer International Publishing, 2015. 15-

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60. Bonati, Claudio, Massimo D'Elia, and Aurora Scapellato. "Θ- dependence in SU (3) Yang-Mills theory from analytic continuation." arXiv preprint arXiv:1512.01544 (2015).

61. Velonakis, Ioannis N. "Efficient energy cumulants for the Baxter-Wu model." Physica A: Statistical Mechanics and its Applications 422 (2015): 153-166.

62. Estimator, A. "Probability Densities in Complex Systems, Measuring." MLA, APA, Harvard, Chicago, Vancouver (2015).

38. Milchev, A. Finite-size scaling analysis of the Ï�4 field theory on the square lattice. , 1986


63. Kaupuzs, J. (2015). Critical two-point correlation functions and" equation of motion" in the phi^ 4 model. arXiv preprint arXiv:1511.05764.

39. Exerowa, D., Lalchev, Z., Bilayer and multilayer foam films: Model for study of the alveolar surface and stability. Langmuir, 2, 5, 1986, ISSN:7437463, 668 - 671


64. Parra, E., Pérez-Gil, J., Composition, structure and mechanical properties define performance of pulmonary surfactant membranes and films, Chemistry &Physics of Lipids, 185, pp. 153-175 (2015)

65. Todorov, R., Thin liquid films in biomedical studies, Current Opinion in Colloid and Interface Science 20 (2), pp. 130-138 (2015)

40. Exerowa, D., Lalchev, Z., Marinov, B., Ognyanov, K., Method for assessment of fetal lung maturity. Langmuir, 2, 5, 1986, ISSN:7437463, 664 - 668


66. Todorov, R., Thin liquid films in biomedical studies, Current Opinion in Colloid and Interface Science 20 (2), pp. 130-138 (2015)

1987

41. Exerowa, D., Kolarov, T., Khristov, Khr., Direct measurement of disjoining pressure in black foam films. I. Films from an ionic surfactant. Colloids and Surfaces, 22, 2, 1987, ISSN:1666622, DOI:10.1016/0166-6622(87)80218-4, 161 - 169


67. Danov, K.D., Kralchevsky, P.A., Radulova, G.M., Basheva, E.S., Stoyanov, S.D., Pelan, E.G., Shear rheology of mixed protein adsorption layers vs their structure studied by surface force measurements, Advances in Colloid and Interface Science, 222, pp. 148-161 (2015)

68. Peng, T., Peng, K., Li, Q., Methodology for disjoining pressure of free water nanofilms, Journal of Physical Chemistry C, 119 (25), pp. 14273-14280 (2015)

69. Zhang, Y., Sharma, V. Domain expansion dynamics in stratifying foam films: Experiments, Soft Matter, 11 (22), pp. 4408-4417 (2015)

70. Feng, H., Ershov, D., Krebs, T., Schroen, K., Cohen Stuart, M.A., Van Der Gucht, J., Sprakel, J., Manipulating and quantifying temperature-triggered coalescence with microcentrifugation, Lab on a Chip - Miniaturisation for Chemistry and Biology 15 (1), pp. 188-194 (2015)

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71. Schelero, N., von Klitzing, R., Ion specific effects in foam films, Current Opinion in Colloid and Interface Science 20 (2), pp. 124-129 (2015)

1988

42. Milchev, A. Monte-Carlo simulation of the Cahn-Hillard model of spinodal decomposition. , 1988


72. Zheng, X., Yang, C., Cai, X. C., & Keyes, D. (2015). A parallel domain decomposition-based implicit method for the Cahn-Hilliard-Cook phase-field equation in 3D. Journal of Computational Physics, 285, 55-70.

73. Sibatov, R. T., & Svetukhin, V. V. (2015). Subdiffusion kinetics of nanoprecipitate growth and destruction in solid solutions." Theoretical and Mathematical Physics 183.3 (2015): 846-859.

43. Michailov, M., Meyer, G., Henzler, M., LEED Studies of the Epitaxy of Pb on Cu(111). SurfaceScience, 202, 20, ELSEVIER, 1988, ISSN:ISSN: 0039-6028, DOI:http://dx.doi.org/10.1016/0039-6028(88)90065-9, 125 - 141. ISI IF:1.925


74. Wu, Ju, and Peng Jin. "Self-assembly of InAs quantum dots on GaAs (001) by molecular beam epitaxy." Frontiers of Physics 10.1 (2015): 7-58.

75. Yuanyuan Chen, Xiangxiang Cui, Xin Yaoa, „Peritectic melting of thin films, superheating and applications in growth of REBCO superconductors“, Progress in Materials Science, Volume 68, March 2015, Pages 97–159

44. Stoyanov, S., Michailov, M., Non-steady state effects in MBE: Oscillations of the step density at the crystal surface. Surface Science, 202, 2-Jan, 1988, ISSN:396028, DOI:10.1016/0039-6028(88)90064-7, 109 - 124


76. G. Koster, M. Huijben, A. Janssen, G. Rijnders, "Growth studies of heteroepitaxial oxide thin films using reflection high-energy electron diffraction (RHEED)" in: Epitaxial Growth of Complex Metal Oxide, Edited by G. Koster, M. Huijben and G. Rijnders, 2015, p. 3-29 Elsevier, ISBN 978-1-78242-255-6

77. Chencheng Xu, , Marco Moors, Regina Dittmann, "Impact of cation stoichiometry on the early stage of growth of SrTiO3 deposited by pulsed laser deposition", Applied Surface Science, Volume 359, 30 December 2015, Pages 68–72

45. Nedyalkov, M., Krustev, R., Kashchiev, D., Platikanov, D., Exerowa, D., Permeability of Newtonian black foam films to gas. Colloid & Polymer Science, 266, 3, Steinkopff-Verlag, 1988, ISSN:0303402X, DOI:10.1007/BF01452592, 291 - 296


78. L Saulnier, W Drenckhan, P-E Larre, C Anglade, D Langevin, E Janiaud, E Rio, In situ measurement of the permeability of foam films using quasi-two-dimensional foams, Coll.Surf. A 473(2015)32.

46. Avramov, I., Gutzow, I., Heating rate and glass transition temperature. Journal of Non-Crystalline Solids, 104, 1, 1988, ISSN:223093, DOI:10.1016/0022-3093(88)90194-9, 148 - 150

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79. P. Grabowski, , J.L. Nowinski, K. Kwatek, High and low temperature syntheses of AgI-AgPO3 glasses: Structural and thermal studies, J. Non-Crystalline Solids 415, ( 2015), 51–56

47. Armyanov, S., Sotirova, G., Diffusion-elastic phenomena in nickel and cobalt electrodeposits plated on to strip cathodes. Surface and Coatings Technology, 34, 4, 1988, ISSN:2578972, DOI:10.1016/0257-8972(88)90099-0, 441 - 454


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