Related projects
Discover more projects across a range of sectors and discipline — from AI to cleantech to social innovation.
Advanced batteries are critical for achieving high-performance electric vehicles (EVs) and supporting goals to reduce greenhouse gas emissions. The prevailing rechargeable Lithium-ion batteries (LIBs) using liquid electrolytes, are the major choice for current EVs. However, these LIBs still suffer from safety, lifespan, and energy density issues. Solid-state lithium batteries (SSLBs) have recently emerged as alternative energy storage devices for next-generation EVs due to their ability to overcome intrinsic disadvantages presented by flammable liquid electrolytes, thus solving a major safety issue. SSLBs can achieve greater volumetric energy density and last longer without compromising safety or power, thanks to solid-state electrolytes (SSEs) to replace traditional liquid electrolytes in LIBs. This proposal aims to develop high-performance anodes for next-generation SSLBs that offer improved safety and performance. Metallic lithium and graphite/silicon high-capacity anodes will be applied and optimized for SSLBs. Meanwhile, various novel surface modification methods will be used to address anode/SSE interfaces challenges.
Xueliang Sun
Jianwen Liang
Glabat Solid-state Battery Inc
Engineering - mechanical
Alternative energy
Accelerate
Discover more projects across a range of sectors and discipline — from AI to cleantech to social innovation.
Find the perfect opportunity to put your academic skills and knowledge into practice!
Find ProjectsThe strong support from governments across Canada, international partners, universities, colleges, companies, and community organizations has enabled Mitacs to focus on the core idea that talent and partnerships power innovation — and innovation creates a better future.