Conveners
T4-1 Energy Storage 2 (DCMMP) | Accumulation 2 (DPMCM)
- Matthew Genovese (Dalhousie University)
Development of Utility Friendly Safe Olivine Based ESS in Esstalion Technologies.
K. Zaghiba, Y. Asakawa, J. C. Daigle, M. Yasudab, and S. Uesaka*b
§ Esstalion Technologies Incorporated, 1804 Lionel-Boulet Blvd., Varennes, Quebec, Canada, J3X 1S1
a) Center of Excellence I Transportation Electrification and Energy Storage (CETEES), Hydro-Québec, 1800 Lionel-Boulet Blvd., Varennes,...
Tuning positive electrode materials in lithium-ion cells provides a promising means for lowering cost of materials while maintaining safety and energy density standards. Due to the rising cost of cobalt, it is important to find less expensive alternatives. Here we present results from first-principles computations within the formalism of density functional theory examining changes in...
Lithium ion batteries are used in consumer electronics, electric vehicles and grid energy storage.1 New positive electrode materials like LiNi1-x-yMnxCoyO2 (NMC) are required to increase energy density, lower cost and increase lifetime. Conventional NMC has large secondary particles (10 - 15 µm) made of agglomerates of small grains (~ 200 - 500 nm) and is thus called polycrystalline NMC.2 ...
To further progress the adoption of electric vehicles and other high power energy storage applications, it is desirable to develop lithium-ion cell chemistries that offer longer lifetimes at high temperatures and cell voltages, without significantly increasing the cost. The introduction of sacrificial electrolyte additives on the order of a few weight percent is a practical method to form...
