cme graduate brochure
DESCRIPTION
Recruitment brochure for graduate studies in the Department of Chemical and Materials Engineering at the University of Alberta, Canada.TRANSCRIPT
Perform leading research with world-class academics in one of the top programs in North America. Create a solid foundation for your career in academia or industry within a supportive environment. The University of Alberta is an ideal place to build on your strengths, develop your expertise, and launch your future in engineering.
Focus. Vision. Collaboration.Start your future in engineering with us.
www.engineering.ualberta.ca/cme
Chemical & Materials Engineering University of Alberta 536 Chemical & Materials Engineering BuildingEdmonton, Alberta, Canada T6G 2G6
Telephone: 1.780.492.3321 Facsimile: 1.780.492.2881Email: [email protected]: www.engineering.ualberta.ca/cme
About the Department of Chemical and Materials EngineeringForty faculty members, 500 undergraduate students, 180 graduate students, and an equal number of postdoctoral fellows and research staff make up our department. Our annual research funding is $15 million. Faculty members have been recognized by numerous awards at national and international levels. Teaching and research are priorities, along with developing industry partnerships and innovative programs that position our graduates as sought-after professionals, and ultimately, leaders of tomorrow’s chemical and materials engineering advances.
If you would like to pursue your education in one of the top chemical and materials engineering departments in North America, please contact our Associate Chair for Graduate Studies.
We offer five main specializations in Chemical and Materials Engineering graduate studies, and virtually limitless potential to pursue your research interests. Gain expertise in your chosen area, explore the possibilities in a stimulating environment, and collaborate with partners and leaders who will support your discoveries.
The Department of Chemical and Materials Engineering is one of the leading research-intensive departments in North America. We attract some of the best and brightest people from around the world who focus their research on the traditional areas such as energy resources and computer process control as well as novel areas such as biomedical applications and nanotechnology.
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Advanced MaterialsStudy electronic materials, polymers, metals, ceramics and composites; explore the vital fields of nano, micro, and macrostructures for new materials and their properties. The study, synthesis, and analysis of new materials drives technological innovations in many fields including medicine, energy and novel fuel cells, aerospace, and manufacturing.
Process Control & Systems EngineeringStudy the science and technology of process automation and optimization. Process control and systems engineering touch every manufacturing and production system imaginable. This field has expanded beyond traditional processes to include areas such as modeling human physiological processes and emerging medical applications.
Nano & Regenerative MedicineBring engineering together with the physical and life sciences and explore the structural and functional regeneration of tissues and organs. This interdisciplinary research team achieves practical engineering solutions for innovative and effective medical treatments.
Surface & Interfacial ScienceExplore areas such as smart materials, nano and biotribology, catalyst characterization and development, and biomedical interfacial interaction. Research in these areas has already shown substantial impact in catalyst design, cryo-preservation of tissues for transplantation, and new materials for gas separation.
Energy & Natural ResourcesExplore everything from novel fuel cells and alternative fuels to heavy oil recovery and clean combustion. Real-world applications of developing research will improve processes, minimize risks, reduce the environmental footprint of operations, and ensure responsible stewardship of energy supplies on a global scale.
We offer five main specializations in Chemical and Materials Engineering graduate studies, and virtually limitless potential to pursue your research interests. Gain expertise in your chosen area, explore the possibilities in a stimulating environment, and collaborate with partners and leaders who will support your discoveries.
The Department of Chemical and Materials Engineering is one of the leading research-intensive departments in North America. We attract some of the best and brightest people from around the world who focus their research on the traditional areas such as energy resources and computer process control as well as novel areas such as biomedical applications and nanotechnology.
12
45
3
Advanced MaterialsStudy electronic materials, polymers, metals, ceramics and composites; explore the vital fields of nano, micro, and macrostructures for new materials and their properties. The study, synthesis, and analysis of new materials drives technological innovations in many fields including medicine, energy and novel fuel cells, aerospace, and manufacturing.
Process Control & Systems EngineeringStudy the science and technology of process automation and optimization. Process control and systems engineering touch every manufacturing and production system imaginable. This field has expanded beyond traditional processes to include areas such as modeling human physiological processes and emerging medical applications.
Nano & Regenerative MedicineBring engineering together with the physical and life sciences and explore the structural and functional regeneration of tissues and organs. This interdisciplinary research team achieves practical engineering solutions for innovative and effective medical treatments.
Surface & Interfacial ScienceExplore areas such as smart materials, nano and biotribology, catalyst characterization and development, and biomedical interfacial interaction. Research in these areas has already shown substantial impact in catalyst design, cryo-preservation of tissues for transplantation, and new materials for gas separation.
Energy & Natural ResourcesExplore everything from novel fuel cells and alternative fuels to heavy oil recovery and clean combustion. Real-world applications of developing research will improve processes, minimize risks, reduce the environmental footprint of operations, and ensure responsible stewardship of energy supplies on a global scale.
• ceramics• composites and metal matrix composites• fuel cells and sensors
Nasim’s interest in thin film characterization began while she was earning her undergraduate electrical engineering degree. Now engaged in studies for her masters' degree, Nasim is working with leaders in the characterization of electronic materials. Her research group has provided her with an opportunity for continuous learning and has given her the ability to hone her skills and experience.
Active with several student groups, Nasim has learned leadership and professional skills while organizing the Graduate Research Symposium and encouraging her colleagues to get involved. Despite working hard to win numerous scholarships, Nasim is able to take time to paint and study other cultures. She takes pride in helping foster the atmosphere that U of A students value – a challenging and rich learning environment coupled with a community of international students who enjoy having fun.
The Advanced Materials group explores the synthesis and analysis of a wide range of functional materials including:
• electronic materials and semiconductors• polymers• metals including advanced steels and alloys
Researchers in advanced materials have access to the cutting edge laboratory and computer technologies to help them achieve success. Specialized equipment includes process sensors and image analysis tools, a variety of chemical and electrochemical equipment, heat treatment and melting furnaces, mechanical testing and metal forming equipment, metallographic and photographic facilities, mineral processing, thermal properties equipment, and welding equipment.
Nasim, like many other Chemical and Materials Engineering students, has been able to network with the Advanced Materials group’s strong industrial and academic ties throughout the world. Her supervisor is also her mentor, able to coach her through both her teaching and learning responsibilities - a combination she is thankful for. Nasim’s U of A experience has exposed her to a world of possibilities.
Materials engineering has grown beyond the traditional focus on metals to include polymers, composites, and electronic materials. Students in this field explore the synthesis and characterization of materials ranging from the nano to macro scale.
Advanced Materials
• ceramics• composites and metal matrix composites• fuel cells and sensors
Nasim’s interest in thin film characterization began while she was earning her undergraduate electrical engineering degree. Now engaged in studies for her masters' degree, Nasim is working with leaders in the characterization of electronic materials. Her research group has provided her with an opportunity for continuous learning and has given her the ability to hone her skills and experience.
Active with several student groups, Nasim has learned leadership and professional skills while organizing the Graduate Research Symposium and encouraging her colleagues to get involved. Despite working hard to win numerous scholarships, Nasim is able to take time to paint and study other cultures. She takes pride in helping foster the atmosphere that U of A students value – a challenging and rich learning environment coupled with a community of international students who enjoy having fun.
The Advanced Materials group explores the synthesis and analysis of a wide range of functional materials including:
• electronic materials and semiconductors• polymers• metals including advanced steels and alloys
Researchers in advanced materials have access to the cutting edge laboratory and computer technologies to help them achieve success. Specialized equipment includes process sensors and image analysis tools, a variety of chemical and electrochemical equipment, heat treatment and melting furnaces, mechanical testing and metal forming equipment, metallographic and photographic facilities, mineral processing, thermal properties equipment, and welding equipment.
Nasim, like many other Chemical and Materials Engineering students, has been able to network with the Advanced Materials group’s strong industrial and academic ties throughout the world. Her supervisor is also her mentor, able to coach her through both her teaching and learning responsibilities - a combination she is thankful for. Nasim’s U of A experience has exposed her to a world of possibilities.
Materials engineering has grown beyond the traditional focus on metals to include polymers, composites, and electronic materials. Students in this field explore the synthesis and characterization of materials ranging from the nano to macro scale.
Advanced Materials
Adrian completed undergraduate studies in his home country of Argentina. For his doctoral studies, he wanted to work with a challenging and open supervisor at a university with a friendly environment, excellent facilities, and above all, the freedom to follow his research instincts. All his criteria were met at the U of A.
Process Control and Systems Engineering (PCSE) has been a major focal point for departmental teaching and research programs for over five decades. The increase in industrial applications of automation techniques has been paralleled by an increased emphasis on advanced identification, optimization, and control activities in the PCSE group.
The Process Control and Systems Engineering group offers students like Adrian the opportunity to work in an interdisciplinary environment on diverse research interests, including:
• dynamic modeling• optimization and scheduling• model predictive control• control of distributed parameter systems
A wide variety of graduate courses are taught by leading experts. Hands-on experience is gained through interactive industrial experiments. A cooperative spirit and broad range of talent within this group leads to cross-fertilization and nurturing of many superb projects and exciting ideas.
An avid cyclist, Adrian can often be found biking in Edmonton’s pristine river valley, a perk he welcomes. He enjoys living in a thriving urban environment and considers the U of A one of the great universities.
Adrian recommends becoming part of the Process Control and Systems Engineering family to any student interested in pursuing graduate studies. He has noticed the high demand for students coming out of graduate studies in this discipline, in industry and academia, and feels that his post-graduate options are unlimited.
• process and control performance monitoring• fuel cells modeling and control• bioinformatics and systems biology
Process control and systems engineering includes diverse topics such as optimization, scheduling, control of non-linear systems, and more. Control research involves extensive computational investigations and projects.
Process Control &Systems Engineering
Adrian completed undergraduate studies in his home country of Argentina. For his doctoral studies, he wanted to work with a challenging and open supervisor at a university with a friendly environment, excellent facilities, and above all, the freedom to follow his research instincts. All his criteria were met at the U of A.
Process Control and Systems Engineering (PCSE) has been a major focal point for departmental teaching and research programs for over five decades. The increase in industrial applications of automation techniques has been paralleled by an increased emphasis on advanced identification, optimization, and control activities in the PCSE group.
The Process Control and Systems Engineering group offers students like Adrian the opportunity to work in an interdisciplinary environment on diverse research interests, including:
• dynamic modeling• optimization and scheduling• model predictive control• control of distributed parameter systems
A wide variety of graduate courses are taught by leading experts. Hands-on experience is gained through interactive industrial experiments. A cooperative spirit and broad range of talent within this group leads to cross-fertilization and nurturing of many superb projects and exciting ideas.
An avid cyclist, Adrian can often be found biking in Edmonton’s pristine river valley, a perk he welcomes. He enjoys living in a thriving urban environment and considers the U of A one of the great universities.
Adrian recommends becoming part of the Process Control and Systems Engineering family to any student interested in pursuing graduate studies. He has noticed the high demand for students coming out of graduate studies in this discipline, in industry and academia, and feels that his post-graduate options are unlimited.
• process and control performance monitoring• fuel cells modeling and control• bioinformatics and systems biology
Process control and systems engineering includes diverse topics such as optimization, scheduling, control of non-linear systems, and more. Control research involves extensive computational investigations and projects.
Process Control &Systems Engineering
The application of engineering principles to biomedical sciences has been gaining momentum since the 1980s. Exploring biomedical problems from an engineering perspective provides unique solutions. Utilizing principles such as thermodynamics, mass transfer, and reactor design advances medical knowledge and facilitates industrial activity based on bioengineering principles. Combining nanoscale efforts with regenerative medicine is the forefront of 21st century medicine.
Nano & RegenerativeMedicine
While finishing her master’s degree in chemical engineering in her homeland of Turkey, Basak was made aware of the excellent reputation of the Chemical and Materials Engineering department at the U of A.
Now that she’s furthering her studies here, she says the quality she appreciates the most about our department is the genuine interest in research and continuous productivity.
Using an interdisciplinary approach, the Nano and Regenerative Medicine group searches for engineering solutions with biological and medical applications. The complementary expertise in engineering practice and biological and medical sciences are combined to develop unique solutions for specific applications, allowing molecular scale research to offer proposed solutions at the practical side.
Graduate students will be able to study areas such as:
• tissue engineering• biomaterials• drug delivery
Basak wants to alleviate human disease, and has a very specific goal: to achieve successful gene therapy of bone marrow stromal cells by using polymers as DNA carriers. Her chemical engineering background provided a foundation for designing and optimizing the properties of the gene delivery systems she is exploring in collaboration with experts in biology, pharmaceutical sciences, and medicine.
Along with her husband – who she met here on her second day in Canada - Basak enjoys hiking and cycling in the river valley and Rocky Mountains, reading in a quiet park, or capturing interesting subjects on camera. She looks forward to completing doctoral studies and building her reputation as a successful and compassionate researcher.
• bone regeneration• cryobiology
The application of engineering principles to biomedical sciences has been gaining momentum since the 1980s. Exploring biomedical problems from an engineering perspective provides unique solutions. Utilizing principles such as thermodynamics, mass transfer, and reactor design advances medical knowledge and facilitates industrial activity based on bioengineering principles. Combining nanoscale efforts with regenerative medicine is the forefront of 21st century medicine.
Nano & RegenerativeMedicine
While finishing her master’s degree in chemical engineering in her homeland of Turkey, Basak was made aware of the excellent reputation of the Chemical and Materials Engineering department at the U of A.
Now that she’s furthering her studies here, she says the quality she appreciates the most about our department is the genuine interest in research and continuous productivity.
Using an interdisciplinary approach, the Nano and Regenerative Medicine group searches for engineering solutions with biological and medical applications. The complementary expertise in engineering practice and biological and medical sciences are combined to develop unique solutions for specific applications, allowing molecular scale research to offer proposed solutions at the practical side.
Graduate students will be able to study areas such as:
• tissue engineering• biomaterials• drug delivery
Basak wants to alleviate human disease, and has a very specific goal: to achieve successful gene therapy of bone marrow stromal cells by using polymers as DNA carriers. Her chemical engineering background provided a foundation for designing and optimizing the properties of the gene delivery systems she is exploring in collaboration with experts in biology, pharmaceutical sciences, and medicine.
Along with her husband – who she met here on her second day in Canada - Basak enjoys hiking and cycling in the river valley and Rocky Mountains, reading in a quiet park, or capturing interesting subjects on camera. She looks forward to completing doctoral studies and building her reputation as a successful and compassionate researcher.
• bone regeneration• cryobiology
After several years working in Iran’s oil industry, Aref was looking for greater challenges. He wanted to be engaged in research while working towards obtaining his doctorate, and the oil sands of Alberta - home to more bitumen than Saudi Arabia has oil - seemed to hold promising opportunities to develop his expertise.
Aref was truly amazed when he discovered the industrial relationships in place and the extensive amount of collaboration that takes place between industry and the University of Alberta in areas of surface and interfacial science. Coming to the U of A to work with one of the most respected and successful interfacial science researchers in the world has given Aref the resources to hone his research, communication, and collaboration skills.
The Surface and Interfacial Science group offers students like Aref the opportunity to work in an interdisciplinary environment on diverse research interests, including:
• heterogeneous catalysis• natural resource extraction• corrosion and wear• nanotechnology
The cornerstone of the Surface and Interfacial Science group is a $13 million integrated research facility for surface characterization and modification, the Alberta Centre for Surface Engineering and Science (ACSES). This centre is unique in Western Canada and contains equipment that is the very best in North America.
While the work is challenging, Aref is able to participate in many extracurricular activities, including volunteering with Amnesty International and attending several of Edmonton’s many cultural festivals.
Aref strives to improve procedures in the oil and gas industry and hopes to find a balance between profitability and preserving the integrity of the environment, making a true difference in the world.
• microfabrication• electronic materials• pharmaceuticals• medical implants
Surface and interfacial science involves research into phenomena occurring at the molecular level and their macroscopic influences. Such studies have applications in fields as diverse as natural resources, pharmaceuticals, and medicine.
Surface &Interfacial Science
After several years working in Iran’s oil industry, Aref was looking for greater challenges. He wanted to be engaged in research while working towards obtaining his doctorate, and the oil sands of Alberta - home to more bitumen than Saudi Arabia has oil - seemed to hold promising opportunities to develop his expertise.
Aref was truly amazed when he discovered the industrial relationships in place and the extensive amount of collaboration that takes place between industry and the University of Alberta in areas of surface and interfacial science. Coming to the U of A to work with one of the most respected and successful interfacial science researchers in the world has given Aref the resources to hone his research, communication, and collaboration skills.
The Surface and Interfacial Science group offers students like Aref the opportunity to work in an interdisciplinary environment on diverse research interests, including:
• heterogeneous catalysis• natural resource extraction• corrosion and wear• nanotechnology
The cornerstone of the Surface and Interfacial Science group is a $13 million integrated research facility for surface characterization and modification, the Alberta Centre for Surface Engineering and Science (ACSES). This centre is unique in Western Canada and contains equipment that is the very best in North America.
While the work is challenging, Aref is able to participate in many extracurricular activities, including volunteering with Amnesty International and attending several of Edmonton’s many cultural festivals.
Aref strives to improve procedures in the oil and gas industry and hopes to find a balance between profitability and preserving the integrity of the environment, making a true difference in the world.
• microfabrication• electronic materials• pharmaceuticals• medical implants
Surface and interfacial science involves research into phenomena occurring at the molecular level and their macroscopic influences. Such studies have applications in fields as diverse as natural resources, pharmaceuticals, and medicine.
Surface &Interfacial Science
• biofuels• pipeline materials processing and corrosion• processing and wear of metal-matrix composites for coatings• recycling and waste minimization
Born in Hong Kong, Carol’s family moved to Canada early in her life. She chose the U of A for its international reputation for excellence and exceptional industrial funding and relationships in place within Chemical and Materials Engineering.
Working on her masters' degree with an international leader in clean coal research, Carol is determining the relationship between toxic metals and ash minerals in coal, for more environmentally responsible electricity generation.
At least 875 faculty members, students, and associated investigators at the U of A are involved in research related to energy and climate change.
Students interested in Energy and Natural Resources choose from diverse thesis topics, including:
• catalysis• clean coal, combustion, and gasification• solid oxide fuel cells• petroleum thermodynamics• advanced upgrading of heavy oil• oil sands extraction
The department receives significant research support from most major companies involved in the Canadian oil sector. Students can access a range of facilities, unmatched by any other university in the world, devoted to Energy and Natural Resources research.
A world traveller who loves intramural sports, Carol enjoys the camaraderie among graduate students at the U of A. She finds colleagues and staff members to be welcoming and willing to lend insight or practical help at challenging junctures in the research process.
Carol's education, both academic and through hands-on research experience, has been interesting, practical, and relevant. She’s building a solid list of mentors and industry contacts that she will be able to call on throughout her career. When she graduates, her degree will be recognized around the globe, opening the world up to her.
Canada is a resource-rich nation, having an abundance of coal, oil, natural gas, mineral resources, forests, and other valuable materials. Research in these areas focuses on the efficient and economic development of resources in an environmentally responsible manner.
Energy & NaturalResources
• biofuels• pipeline materials processing and corrosion• processing and wear of metal-matrix composites for coatings• recycling and waste minimization
Born in Hong Kong, Carol’s family moved to Canada early in her life. She chose the U of A for its international reputation for excellence and exceptional industrial funding and relationships in place within Chemical and Materials Engineering.
Working on her masters' degree with an international leader in clean coal research, Carol is determining the relationship between toxic metals and ash minerals in coal, for more environmentally responsible electricity generation.
At least 875 faculty members, students, and associated investigators at the U of A are involved in research related to energy and climate change.
Students interested in Energy and Natural Resources choose from diverse thesis topics, including:
• catalysis• clean coal, combustion, and gasification• solid oxide fuel cells• petroleum thermodynamics• advanced upgrading of heavy oil• oil sands extraction
The department receives significant research support from most major companies involved in the Canadian oil sector. Students can access a range of facilities, unmatched by any other university in the world, devoted to Energy and Natural Resources research.
A world traveller who loves intramural sports, Carol enjoys the camaraderie among graduate students at the U of A. She finds colleagues and staff members to be welcoming and willing to lend insight or practical help at challenging junctures in the research process.
Carol's education, both academic and through hands-on research experience, has been interesting, practical, and relevant. She’s building a solid list of mentors and industry contacts that she will be able to call on throughout her career. When she graduates, her degree will be recognized around the globe, opening the world up to her.
Canada is a resource-rich nation, having an abundance of coal, oil, natural gas, mineral resources, forests, and other valuable materials. Research in these areas focuses on the efficient and economic development of resources in an environmentally responsible manner.
Energy & NaturalResources
D.B. Robinson Distinguished Speaker SeriesThis eminent lecture series brings renowned researchers to Edmonton. In addition to technical seminars, these international experts interact with research groups, students, and faculty.
Facilities and ResourcesExceptional experimental and computation facilities are available to our students. Our on-site machine shop can create and repair customized equipment. In addition, we offer an instrument shop, experienced computer technicians, a full-time chemist, excellent support staff, and state-of-the-art characterization equipment, a scanning Auger microprobe, and X-ray photoelectron spectrometers. Students can access one of the most technologically advanced nanotechnology facilities in the world – the National Institute for Nanotechnology – connected by pedway to the Chemical & Materials Engineering Building.
An affordable city offering a reasonable cost of living and outstanding quality of life.A city of opportunity. We are the research, manufacturing, transportation, logistics and supply hub for over $85 billion in projects slated for northern Alberta over the next decade.A diverse community with a large multicultural population.Access to worldclass entertainment and professional sports, and home to a creative and thriving grassroots arts community.North America’s largest stretch of urban parkland on the banks of the majestic North Saskatchewan River.One of Canada’s sunniest cities, with about 2,300 hours of bright sunshine per year, and a milder climate than many other major Canadian cities, including Halifax, Montreal, or Ottawa.
The City of EdmontonEdmonton is the fast-growing capital of the Province of Alberta, with a metropolitan area that is home to over 1,000,000 people. In the past 100 years, Edmonton has grown from a trading post into a world leader, breaking ground on many fronts.
University of AlbertaThe University of Alberta, located in the heart of the city of Edmonton, is Alberta’s leading educational and research institution. Our institution teaches over 36,000 students, and attracts more than $400 million in external research funding annually. We’ve grown to be one of Canada’s foremost research-intensive universities. The U of A’s pioneering spirit inspires faculty and students to advance knowledge through research, seek innovation in teaching and learning, and find new ways to serve the people of the world.
Our students enjoy an exceptional quality of life on a friendly campus in the midst of beautiful river valley natural parkland that is surrounded by a vibrant urban area. Edmontonians value research and technology as well as culture and the environment.
As committed leaders in teaching and research, we offer our students an excellent education, superior facilities, and outstanding research opportunities. Faculty and staff members work closely with students to create a positive, interactive, and inspiring learning environment. We encourage partnership, support discovery, and foster creative minds.
The Department of Chemical and Materials Engineering offers programs leading to the following graduate degrees:
Doctor of Philosophy - PhDThe PhD program is a rigorous, research-oriented path requiring the completion of a thesis. Taking specialization to the highest level, this program builds on students' analytical skills and develops essential qualities for careers in academia or industrial research.
Master of Science - MScThe MSc program is valuable to students who want to specialize in an area within Chemical, Process Control, or Materials Engineering. A full-time, research-based program requiring the completion of a thesis, an MSc allows you to concentrate on a particular area of study and enter or re-enter the engineering field with more advanced skills and knowledge.
Master of Engineering - MEngThe course-based MEng program is designed to develop focused skills in specific areas of Chemical and Materials Engineering. The MEng degree can be taken as a full-time or part-time program.
We offer guaranteed financial support to all successful applicants in our MSc and PhD programs.
D.B. Robinson Distinguished Speaker SeriesThis eminent lecture series brings renowned researchers to Edmonton. In addition to technical seminars, these international experts interact with research groups, students, and faculty.
Facilities and ResourcesExceptional experimental and computation facilities are available to our students. Our on-site machine shop can create and repair customized equipment. In addition, we offer an instrument shop, experienced computer technicians, a full-time chemist, excellent support staff, and state-of-the-art characterization equipment, a scanning Auger microprobe, and X-ray photoelectron spectrometers. Students can access one of the most technologically advanced nanotechnology facilities in the world – the National Institute for Nanotechnology – connected by pedway to the Chemical & Materials Engineering Building.
An affordable city offering a reasonable cost of living and outstanding quality of life.A city of opportunity. We are the research, manufacturing, transportation, logistics and supply hub for over $85 billion in projects slated for northern Alberta over the next decade.A diverse community with a large multicultural population.Access to worldclass entertainment and professional sports, and home to a creative and thriving grassroots arts community.North America’s largest stretch of urban parkland on the banks of the majestic North Saskatchewan River.One of Canada’s sunniest cities, with about 2,300 hours of bright sunshine per year, and a milder climate than many other major Canadian cities, including Halifax, Montreal, or Ottawa.
The City of EdmontonEdmonton is the fast-growing capital of the Province of Alberta, with a metropolitan area that is home to over 1,000,000 people. In the past 100 years, Edmonton has grown from a trading post into a world leader, breaking ground on many fronts.
University of AlbertaThe University of Alberta, located in the heart of the city of Edmonton, is Alberta’s leading educational and research institution. Our institution teaches over 36,000 students, and attracts more than $400 million in external research funding annually. We’ve grown to be one of Canada’s foremost research-intensive universities. The U of A’s pioneering spirit inspires faculty and students to advance knowledge through research, seek innovation in teaching and learning, and find new ways to serve the people of the world.
Our students enjoy an exceptional quality of life on a friendly campus in the midst of beautiful river valley natural parkland that is surrounded by a vibrant urban area. Edmontonians value research and technology as well as culture and the environment.
As committed leaders in teaching and research, we offer our students an excellent education, superior facilities, and outstanding research opportunities. Faculty and staff members work closely with students to create a positive, interactive, and inspiring learning environment. We encourage partnership, support discovery, and foster creative minds.
The Department of Chemical and Materials Engineering offers programs leading to the following graduate degrees:
Doctor of Philosophy - PhDThe PhD program is a rigorous, research-oriented path requiring the completion of a thesis. Taking specialization to the highest level, this program builds on students' analytical skills and develops essential qualities for careers in academia or industrial research.
Master of Science - MScThe MSc program is valuable to students who want to specialize in an area within Chemical, Process Control, or Materials Engineering. A full-time, research-based program requiring the completion of a thesis, an MSc allows you to concentrate on a particular area of study and enter or re-enter the engineering field with more advanced skills and knowledge.
Master of Engineering - MEngThe course-based MEng program is designed to develop focused skills in specific areas of Chemical and Materials Engineering. The MEng degree can be taken as a full-time or part-time program.
We offer guaranteed financial support to all successful applicants in our MSc and PhD programs.
D.B. Robinson Distinguished Speaker SeriesThis eminent lecture series brings renowned researchers to Edmonton. In addition to technical seminars, these international experts interact with research groups, students, and faculty.
Facilities and ResourcesExceptional experimental and computation facilities are available to our students. Our on-site machine shop can create and repair customized equipment. In addition, we offer an instrument shop, experienced computer technicians, a full-time chemist, excellent support staff, and state-of-the-art characterization equipment, a scanning Auger microprobe, and X-ray photoelectron spectrometers. Students can access one of the most technologically advanced nanotechnology facilities in the world – the National Institute for Nanotechnology – connected by pedway to the Chemical & Materials Engineering Building.
An affordable city offering a reasonable cost of living and outstanding quality of life.A city of opportunity. We are the research, manufacturing, transportation, logistics and supply hub for over $85 billion in projects slated for northern Alberta over the next decade.A diverse community with a large multicultural population.Access to worldclass entertainment and professional sports, and home to a creative and thriving grassroots arts community.North America’s largest stretch of urban parkland on the banks of the majestic North Saskatchewan River.One of Canada’s sunniest cities, with about 2,300 hours of bright sunshine per year, and a milder climate than many other major Canadian cities, including Halifax, Montreal, or Ottawa.
The City of EdmontonEdmonton is the fast-growing capital of the Province of Alberta, with a metropolitan area that is home to over 1,000,000 people. In the past 100 years, Edmonton has grown from a trading post into a world leader, breaking ground on many fronts.
University of AlbertaThe University of Alberta, located in the heart of the city of Edmonton, is Alberta’s leading educational and research institution. Our institution teaches over 36,000 students, and attracts more than $400 million in external research funding annually. We’ve grown to be one of Canada’s foremost research-intensive universities. The U of A’s pioneering spirit inspires faculty and students to advance knowledge through research, seek innovation in teaching and learning, and find new ways to serve the people of the world.
Our students enjoy an exceptional quality of life on a friendly campus in the midst of beautiful river valley natural parkland that is surrounded by a vibrant urban area. Edmontonians value research and technology as well as culture and the environment.
As committed leaders in teaching and research, we offer our students an excellent education, superior facilities, and outstanding research opportunities. Faculty and staff members work closely with students to create a positive, interactive, and inspiring learning environment. We encourage partnership, support discovery, and foster creative minds.
The Department of Chemical and Materials Engineering offers programs leading to the following graduate degrees:
Doctor of Philosophy - PhDThe PhD program is a rigorous, research-oriented path requiring the completion of a thesis. Taking specialization to the highest level, this program builds on students' analytical skills and develops essential qualities for careers in academia or industrial research.
Master of Science - MScThe MSc program is valuable to students who want to specialize in an area within Chemical, Process Control, or Materials Engineering. A full-time, research-based program requiring the completion of a thesis, an MSc allows you to concentrate on a particular area of study and enter or re-enter the engineering field with more advanced skills and knowledge.
Master of Engineering - MEngThe course-based MEng program is designed to develop focused skills in specific areas of Chemical and Materials Engineering. The MEng degree can be taken as a full-time or part-time program.
We offer guaranteed financial support to all successful applicants in our MSc and PhD programs.
Perform leading research with world-class academics in one of the top programs in North America. Create a solid foundation for your career in academia or industry within a supportive environment. The University of Alberta is an ideal place to build on your strengths, develop your expertise, and launch your future in engineering.
Focus. Vision. Collaboration.Start your future in engineering with us.
www.engineering.ualberta.ca/cme
Chemical & Materials Engineering University of Alberta 536 Chemical & Materials Engineering BuildingEdmonton, Alberta, Canada T6G 2G6
Telephone: 1.780.492.3321 Facsimile: 1.780.492.2881Email: [email protected]: www.engineering.ualberta.ca/cme
About the Department of Chemical and Materials EngineeringForty faculty members, 500 undergraduate students, 180 graduate students, and an equal number of postdoctoral fellows and research staff make up our department. Our annual research funding is $15 million. Faculty members have been recognized by numerous awards at national and international levels. Teaching and research are priorities, along with developing industry partnerships and innovative programs that position our graduates as sought-after professionals, and ultimately, leaders of tomorrow’s chemical and materials engineering advances.
If you would like to pursue your education in one of the top chemical and materials engineering departments in North America, please contact our Associate Chair for Graduate Studies.