Professor XiaoYu Wu joined the of the . Congratulations!
The Canada’s Rising Stars in Electrochemical Systems Symposium will take place virtually on April 28 - 29, 2022. XiaoYu is invited to give a talk on Mixed ionic-electronic conducting membranes for CO2 reduction and chemical production. The talk will be at 12:15 pm on April 28. Please check it out!
Mike Giovanniello, a research assistant in our group, will join the at MIT as a master student in the Fall. Mike has been working on hybrid-energy storage systems for renewable microgrids since May 2020. Good luck at MIT, Mike!
Congratulations to Faris, our first MASc student in the group for submitting his master thesis! You can find his thesis "." Best of luck to Faris for his future career!
Greener Water Production: We receives the Water Institute (WI) and the ݮƵ Institute for Nanotechnology (WIN) inaugural joint seed grant to study the electrochemical treatment of 1,4-dioxane and similar contaminants of emerging concern (CECs) in water. The goal is to develop a cost-effective method to remove contaminants in water and to understand the overall environmental impacts and benefits of the process.
On November 11, XiaoYu will be joining the Academic Roundtable at . He will discuss about the production and distribution of hydrogen and its carriers. At Greener Production Group, we are developing novel technologies and analyses on hydrogen and ammonia production, storage, and distribution.
We have published a roadmap for using mixed ionic-electronic conducting (MIEC) membranes in various technologies for sustainability, such as oxygen and hydrogen production, CO2 separation and conversion. This work is in collaboration with 21 other international experts on MIEC membranes. You can find the full roadmap in the Advanced Functional Materials using the open-access .
Our group has a new collaborative project with Dr. Farid Bensebaa at NRC, titled "Analysis of Renewable Ammonia Production and Transmission across the Atlantic Ocean." A combined techno-economic assessment (TEA) and life-cycle analysis (LCA) method will be used to quantify the economic potential and environmental benefits of using ammonia as a hydrogen carrier, which enables Canada as a clean hydrogen exporter. A master student from RWTH Aachen will be supported in this project with the NRC-MITACS-RWTH Globalink Research Award.
A new paper from the group, with collaborators from China, the US and the UK, is now published in Applied Catalysis B: Environmental. It presents a novel plasma-catalysis method for ammonia production directly from air (similar to the lightening in nature!). You can read the paper on the following link:
Mike is presenting his work in the 2021 World Fuel Cell Conference on August 18 2021. Good luck!
The title of his talk is "."