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The Department of Chemical Engineering (ChE) and the Waterloo Institute for Nanotechnology (WIN) are partnering to organize a series of discourses on technology-based solutions to global challenges linked to UN Sustainable Development Goals.
We are pleased to present another discourse in our series:Circular Economies: Electronic and ElectrochemicalDevices.

Carbon capture is a promising way to slow down climate change from anthropogenic sources. One of the carbon capture technologies that is being actively researched is adsorption. Given the increasing amount of literature that present novel ideas, being able to predict this information based on adsorbent textural properties is desirable. In this thesis, machine learning is used to construct a model to estimate adsorbent performance.

In this thesis, Nafion membranes were modified with single to few-layer heteroatom-doped graphene with the aim of reducing vanadium crossover and possibly improving reaction kinetics within a Vanadium Redox Flow Battery (VRFB). The former was successfully achieved, while the investigation of the latter demonstrated limitations in the application of some established analysis techniques to systems such as VRFBs. Reduced graphene oxide did appear to have a positive effect on the reaction kinetics.

The Chemical Engineering Department is hosting a Distinguished Speaker Seminar Series on Metal Derivative Chemical Looping Systems: A Gateway to Novel Energy and Fuel Conversion Technology.