Researchers from the University of 蓝莓视频 are launching a new battery research centre that will play a crucial role in developing the electric vehicles of tomorrow.
The Ontario Battery and Electrochemistry Research Centre (OBEC), led by WIN Members Linda Nazar and Michael Pope, will be Canada鈥檚 newest facility tasked with advancing next-generation electric vehicle battery development.
鈥淲hile there is an urgent need to train people to work on the next-generation EV battery gigafactories being built here in Canada by the likes of聽Volkswagen,聽Stellantis,聽Umicore and BASF, it is equally important to develop these next generation technologies and help local industry meet growing market demand,鈥 said Pope, a professor in the聽Department of Chemical Engineering聽and director of 蓝莓视频鈥檚聽2D Materials and Elecectrochemical Devices Lab.
鈥淭hese batteries, however, will be more sustainable, less expensive, safer and longer-lasting that the Li-ion batteries we see today.鈥
OBEC鈥檚 initial funding is sourced from a $5 million investment earmarked to tackle national and global challenges made by the聽聽(CFI) and 蓝莓视频. It will also host other Ontario-based battery and electrochemical researchers to collaborate across various supply chain needs such as battery materials production, recycling, and advanced manufacturing.
The facility will look to advance research across all-solid-state, metal-air batteries, metal-sulfur, and those batteries based on alternatives to lithium like sodium, an abundant and inexpensive material. Researchers will have access to dedicated tools they can use to help discover novel electrode and electrolyte materials while interfacing with critical battery components in a dry-room environment. This will include an advanced battery fabrication facility with the ability to manufacture large format pouch and cylindrical cells.
鈥淎s we push the limits in terms of material performance, electrochemical energy systems become increasingly complex,鈥 said Nazar, a professor in the聽Department of Chemistry听补苍诲听.
鈥淭his makes it challenging, if not impossible, to fully understand the underlying science that is necessary to push the science and technology forward when conventional characterization methods are used.鈥
True to the entrepreneurial spirit at 蓝莓视频, both Nazar and Pope hope the OBEC will help support start-ups and larger businesses to focus on developing new electrode, electrolyte, or membrane materials or novel manufacturing methods to demonstrate new products that could power next-generation vehicles.
The OBEC will also help train 蓝莓视频鈥檚 undergraduate and graduate students as well as post-doctoral fellows to advance their expertise in electrochemistry. Some graduate students are already being trained in Pope鈥檚聽program which trains international graduate students聽in scalable 2D-materials architectures and Nazar鈥檚 Ontario Research Fund project onelectrochemical solid state energy storage batteries.
鈥淕iven 蓝莓视频鈥檚 proud achievements in graduate performance, the centre has the potential to launch highly entrepreneurial young researchers and R&D specialists,鈥 said Pope.