Photo: Professor Nazir Kherani with Materials Science & Engineering (MSE) students in his Advanced Photovoltaics & Devices (APD) laboratory. The Department of Materials Science & Engineering at the University of Toronto is home to some of the world’s top experts in next-generation materials that create technological solutions to address today’s most challenging global resource issues: energy and sustainability.
Materials engineers focus on improving what things are made of and how they are made. New materials enable better performance and sustainable technologies.
For over 100 years, materials engineers at U of T have applied fundamental science, math and computer modelling to manipulate and control the physical properties of materials all around us. The result? Everything from high-efficiency energy storage and conversion technologies, to lightweight and high-performance materials for aerospace and automotive applications, to greener processes for making advanced materials.
For example, Professor Mansoor Barati and his Sustainable Materials Processing Research Group have been able to lower the cost of solar cells by using silicon extracted from rice husk. And it’s the Surface Engineering & Electrochemistry team, led by Professor Steven Thorpe, that has been combining innovative nanostructures and the electrolysis of water to produce clean hydrogen fuel. On another front, the Integrated Computational Materials Engineering group, with Professor Chandra Veer Singh, is speeding up the development of products by finding ways to reduce the steps needed to test the next generation of structural materials. Many of these advancements wouldn’t happen without close collaboration with industry.
Some of the most influential people in materials engineering are U of T graduates. That’s not surprising when you consider three things. First, our department marked a century of innovation and education in 2013. Second, we are the number one ranked school for materials science in Canada. And third, our students benefit from the productive materials research they see all around them on campus.
- Bachelor of Applied Science (BASc) in Materials Engineering
- Master of Applied Science (MASc) in Materials Science & Engineering
- Master of Engineering (MEng) in Materials Science & Engineering
- Doctor of Philosophy (PhD) in Materials Science & Engineering
Undergraduate Theme Areas
- Design of Materials
- Manufacturing with Materials
- Sustainable Materials Processing
Core Professors & Research Areas
- Azimi, Gisele – Laboratory for Strategic Materials
- Barati, Mansoor – Sustainable Materials Processing
- Bobicki, Erin – Sustainable Mineral Processing
- Chattopadhyay, Kinnor – Process Metallurgy & Modelling
- Coyle, Thomas W. – Advanced Coating Technologies
- Erb, Uwe – Nanomaterials
- Hatton, Benjamin D. – Microstructured Surfaces & Adaptive Materials
- Hibbard, Glenn D. – Cellular Hybrid Materials
- Howe, Jane (MSE/ChemEng) – In situ and correlative microscopy
- Kherani, Nazir P. (ECE/MSE) – Advanced Photovoltaics & Devices
- Lian, Keryn K. – Flexible Energy & Electronics
- Lu, Zheng-Hong – Organic Optoelectronics
- Matsuura, Naomi (IBBME/MSE) – Nanotechnology, Molecular Imaging & Systems Biology
- Naguib, Hani E. (MIE/MSE) – Smart & Functional Materials
- Nogami, Jun – Nanostructured Growth & Characterization
- Perovic, Doug D. – Electron Microscopy / Nanostructured Materials / Forensics
- Ramsay, Scott D. – Teaching Stream
- Ruda, Harry E. – Advanced Nanotechnology / Semiconductors
- Singh, Chandra Veer – Computational Materials Engineering
- Sone, Eli D. (IBBME/MSE) – Composite Biological Materials
- Thorpe, Steven J. – Surface Engineering & Electrochemistry
- Zou, Yu – Multiscale Mechanics & Additive manufacturing