Events
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Round Table with WiE Leaders
Round Table with WiE Leaders
Engineering Graduate Studies Fair
Please come out to our Engineering Graduate Studies Fair and learn more about our graduate studies programs! Explore which program is right for you.
Graduate Seminar| Exploring the potential of whey ultrafiltration permeate in enhancing wood durability and stability, by Assira Keralta
The Chemical Engineering Department is hosting a special graduate lecture on Exploring the potential of whey ultrafiltration permeate in enhancing wood durability & stability.
Graduate Seminar| Development of High-Energy-Density Lithium-Ion Batteries, by Dr. Hey Woong Park
The Chemical Engineering Department is hosting a special graduate lecture on Development of High-Energy-Density Lithium-Ion Batteries
Graduate Seminar |AI Transparency & AI Transformative Utilizations in Chemical Engineering , by Professor Donovan Chaffart
The Chemical Engineering Department is hosting a special graduate lecture on AI Transparency & AI Transformative Utilizations in Chemical Engineering.
Graduate Seminar| Accelerated scale-up of rationally designed sustainable energy materials, by Pranay Shrestha
The Chemical Engineering Department is hosting a special graduate lecture on Accelerated scale-up of rationally designed sustainable energy materials.
Graduate Seminar| Advanced Manufacturing of Electrochemical Devices, by Dr.Maxime van der Heijden
The Chemical Engineering Department is hosting a special graduate lecture on Advanced Manufacturing of Electrochemical Devices.
MASc Oral Exam| Characterizing Self-assembled Nanostructures via Shapelet Functions by Matthew Tino
You are welcome to attend Matthew Tino's MASc oral exam, where he will discuss his research in Characterizing Self-assembled Nanostructures via Shapelet Functions
The exam will take place virtually and in person in E6-2022. To join online, please use the link below:
Abstract:
Characterization of self-assembled nanostructures is important to develop structure-property relations but remains a difficult task due to inherent defects/disorder. Existing methods, such as bond-orientational order theory, contain inherent limitations that restrict widespread use. A recent and promising approach uses a set of orthogonal functions called shapelets. This work presents extensions to existing shapelet-based techniques and new shapelet methods to quantify local orientation and topological defects. The methods are provided in an open-source Python library to promote collaboration in shapelet research.
Supervisor: Professor Nasser Abukhdeir
Seminar| Synchrotron-based X Ray imaging for advancing understanding transport phenomena in porous media
Synchrotron-based X Ray imaging for advancing understanding transport phenomena in porous media
Lifeng Zhang, PhD., PEng.
Department of Chemical and Biological Engineering, University of Saskatchewan, Saskatoon, SK, Canada