The Master of Applied Science (MASc) program is oriented toward a career in research. All MASc students carry out a thesis which reports the findings of research conducted by the student. The MASc program is the most appropriate masters level program for those students who intend to pursue a doctoral degree.
As an MASc student, you'll receive guaranteed base support funding for up to two years of study. Current graduate scholarship funding tables can be viewed here.
Exceptional students can fast-track into the PhD program.
Admission Requirements
A Bachelor of Applied Science (BASc) in engineering or Bachelor of Engineering (BEng) with a minimum average of B+ (78%+) over the final two years of an undergraduate program from an accredited institution.
Full graduate admissions criteria can be found here.
Program Requirements & Time for Completion
The program of study normally includes 2.0 FCE (four half-courses), including the weekly Graduate Research Seminar, the Graduate Ethics Seminar, and a thesis.
The required thesis is based upon research work carried out in the Department. The thesis must be presented at an oral examination.
MASc candidates typically take between one to three years to complete the requirements of the degree (six sessions). Only full-time study is available.
See all program requirements here: MSE Graduate Student Handbook
Research Areas & Affiliated Core Professors
Advanced Coating Technologies & Ceramics
- Coyle, Thomas W. – Advanced Coating Technologies
Biomaterials & Biotechnology
- Hatton, Benjamin D. – Microstructured Surfaces & Adaptive Materials
- Sone, Eli D. (IBBME/MSE) – Composite Biological Materials
Composites, Polymers & Hybrid Materials
- Hibbard, Glenn D. – Cellular Hybrid Materials
- Naguib, Hani E. (MIE/MSE) – Smart & Functional Materials
Computational Materials Engineering
- Singh, Chandra Veer – Computational Materials Engineering
Electronic Materials & Systems
- Lu, Zheng-Hong – Organic Optoelectronics
- Nogami, Jun – Nanostructured Growth & Characterization
- Perovic, Doug D. – Electron Microscopy / Microelectronics / Forensics
- Ruda, Harry E. – Advanced Nanotechnology / Semiconductors
Energy Devices, Systems & Technologies
- Lian, Keryn K. – Flexible Energy & Electronics
- Kherani, Nazir P. (ECE/MSE) – Advanced Photovoltaics & Devices
- Thorpe, Steven J. – Surface Engineering & Electrochemistry
Materials Fracture & Failure
- Perovic, Doug D. – Electron Microscopy / Microelectronics / Forensics
Materials Processing & Modelling
- Azimi, Gisele – Laboratory for Strategic Materials
- Barati, Mansoor – Sustainable Materials Processing
Multiscale Mechanics & Additive Manufacturing
- Zou, Yu – Laboratory for Extreme Mechanics & Additive Manufacturing
Nanomaterials & Nanotechnology
- Hibbard, Glenn D. – Cellular Hybrid Materials
- Nogami, Jun – Nanostructured Growth & Characterization
- Perovic, Doug D. – Electron Microscopy / Microelectronics / Forensics
- Ruda, Harry E. – Advanced Nanotechnology / Semiconductors