ProLogium is a lithium ceramic battery manufacturer that is leading in the commercialization of safer EV batteries with higher energy density and superior performance.
Why are lithium metal batteries becoming a solid-state electrolyte?
1. Introduction The growing demand for advanced energy storage systems, emphasizing high safety and energy density, has driven the evolution of lithium metal batteries (LMBs) from liquid-based electrolytes to solid-state electrolytes (SSEs) in recent years.
Are polymer electrolytes suitable for solid-state batteries?
Currently, very different material classes of solid electrolytes for use in solid-state batteries are being investigated and described. Polymer electrolytes have the advantage of high mechanical flexibility and compatibility with conventional manufacturing processes. However, their thermal stability and conductivity at room temperature are limited.
Can composite electrolytes be used for solid state batteries?
Li metal batteries employing this SSE paired with LiFePO 4 cathodes show 81.56 % capacity retention after 800 cycles at 2 C, demonstrating its potential for commercial solid-state batteries. These findings hold promise for advancing the commercialization of composite electrolytes for solid state batteries. 1. Introduction
Unique ceramic composite cell separator materials to provide the safest NMC based Lithium-ion cells. High quality electrodes, optimized electrolyte for high temperature operations, improved cell assembly process. Unique ceramic composite cell separator materials to provide the safest NMC based Lithium-ion cells.
Are EVs more efficient than lithium-ion batteries?
Our innovative battery cell technology can store energy more efficiently and reliably than today's lithium-ion batteries. Transportation is one of the top contributors to global greenhouse gas emissions, but today's EVs lack the performance, safety and cost required for mass-market adoption of zero emissions vehicles.
With regard to room-temperature lithium batteries, one focus of the R&D activities at IKTS is on ceramic electrolytes based on oxide and phosphate materials (LLZO, LATP), which have a high electrochemical and chemical stability and ionic conductivity in the range of 10 -3 to 10 -4 S/cm.