Waterloo Institute for Nanotechnology
Mike & Ophelia Lazaridis Quantum-Nano Centre, QNC 3606
University of Waterloo
200 University Avenue West,
Waterloo, ON N2L 3G1
519-888-4567, ext. 38654
win-office@uwaterloo.ca
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Wednesday, April 5, 2023 — 10:30 to 12:00 AM to 12:00 PM EDT
The Waterloo Institute for Nanotechnology (WIN) and the Faculty of Arts are pleased to present a “Mash-Up” event, on the theme of “Alternate Energy and the Hydrogen Economy."
This event will take place on Wednesday, April 5, 2023 from 10:30 a.m. to 12:00 p.m. in QNC 1501. A networking lunch will be hosted after the presentations.
Wednesday, April 12, 2023 — 11:00 to 12:00 AM to 12:00 PM EDT
The Waterloo Institute for Nanotechnology (WIN) is pleased to present a Distinguished Lecture by Dr. Khalil Amine, Argonne Distinguished Fellow and the leader of the Advanced Battery Technology team at Argonne National Laboratory.
In-person in QNC 1502!
Registration is required. Please register early as there is limited in-person seating.
Advanced Lithium-ion Battery and Beyond for Enabling Mass Electrification of Vehicles
Abstract
Wednesday, April 12, 2023 — 3:30 PM to 4:30 PM EDT
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.
Wednesday, April 19, 2023 — 11:00 AM GMT
The Waterloo Institute for Nanotechnology (WIN) is excited to host a WIN Research Security Talk presented by Justin Nankivell, Director of Research Security at the University of Waterloo.
In-person in QNC 1501.
Safeguarding Research at UW - Current Status of Canadian Policy and Future Trends
Thursday, April 20, 2023 — 10:00 AM GMT
2D materials: from scalable MOCVD growth to quantitative structural characterization at the atomic scale
Abstract
Two-dimensional materials are prime contenders to enhance semiconductor technology. Their rich compositional and stacking varieties yield virtually endless possibilities to tailor device properties. For example, monolayer GaS exhibits a bandgap in the ultraviolet and could yield solar-blind photodiodes or even replace GaN as emitter in LEDs covering the whole visible spectrum.