Welcome to Chemical Engineering at the University of Waterloo

As part of Canada's largest engineering school and most innovative university, the Department of Chemical Engineering at the University of Waterloo is home to approximately 1,000 students, faculty and staff, and has thousands of alumni worldwide.

Our Department consistently ranks among the top two universities in Canada and the number one university in Ontario in Chemical Engineering according to the Shanghai Academic Ranking of World Universities.

In addition to offering undergraduate and graduate programs in chemical engineering, the Department provides academic expertise and support to Waterloo's collaborative nanotechnology and biomedical engineering programs.

The department's collaborative research culture, engaging teaching practices and state-of-the-art facilities create a vibrant learning environment where students are empowered to solve the problems our world faces.

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Capstone Design Projects

Participation in Capstone Design Projects synthesizes theory learned in class, lab work, and real-world experience from co-op programs. Students are able to create design projects in areas that interest them. Capstone Design projects often lead to the creation of a marketable product and entrepreneurial opportunities for the graduating students.

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Professor Hamed Shahsavan's micro-medical robotics research

Check out this video about Professor Hamed Shahsavan’s research into developing smart polymers for applications in biomedical robotics. Shahsavan’s research group utilizes shape change to produce movement in the micro-robots. The micro-medical robots have the potential to be used for biopsies, cell transport and drug delivery. He also discusses the critical role of graduate students in research labs.

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Chemical Engineering Lab Tour

Join us for a tour of the Chemical Engineering undergraduate labs in the Douglas Wright Engineering Building at the University of Waterloo.

Find out more by exploring the programs, research and news stories on this site.

News

Last month, negotiators and interested parties met in Ottawa for the INC-4 to discuss progress on a plastics treaty. A delegation of plastics and microplastics experts from the Water Institute at the University of Waterloo participated with special accreditation from the UNEP. Professor Elisabeth Prince was part of that delegation.

“We had the opportunity to share our expertise in the emerging technologies for mitigating the plastic waste crisis with key decision-makers,” says Prince.

Prince has expertise in synthetic polymer chemistry and polymer science. The delegation from the Water Institute hoped to lend their scientific knowledge to ensure the treaty was well-informed by science because there were many parties with many different interests and motivations throughout the negotiation.

Professor Raj Pal has been identified as a highly-ranked scholar in the field of Rheology by Scholar GPS, a California-based company owned by Meta, that analyses scholarly activity. Highly ranked scholars are among the top 0.05% or better worldwide.

Pal is ranked number six in the world (second in Canada) in the field of Rheology, the science of the deformation and flow of complex substances such as polymers, surfactants, gels, suspensions, emulsions, foams and more. Pal’s research focuses on the rheology and flow of complex fluids through both experimental work and modelling.

The Chemical Institute of Canada has awarded Professor Luis Ricardez Sandoval the D. G. Fisher Award in recognition of his significant contributions to the field of systems and control engineering. This prestigious award celebrates the lifetime achievements of exceptional researchers in Canada.

Ricardez-Sandoval spearheads research initiatives focused on optimal integration of planning, scheduling, control, and process design decisions for chemical and manufacturing systems in the presence of uncertainty. His pioneering work on CO2 capture and conversion technologies aims to mitigate carbon emissions thus promoting sustainability and circular carbon economy and employing first-principles modelling couples with multiscale modelling techniques for the design of novel catalyst materials and valuable chemical products, e.g. thin films. This research is supported through the development of theoretical and computational tools aimed to predict the behaviour of complex and emerging systems.

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