APPLICATIONS OF TECHNOLOGY: Electric Vehicles Energy Storage and Battery Manufacturing BENEFITS: Superior energy density and structural stability Free of nickel and cobalt BACKGROUND: The disordered rocksalt (DRX) cathode materials are new candidates in the field of lithium-ion battery technology, designed to enhance energy storage capacity while … [Read more...] about High Capacity Large Particle Cathodes from Earth-Abundant Manganese 2024-041
Stable Lithium Phosphorous Sulfur Electrolyte in Solid-State Batteries 2024-001
APPLICATIONS OF TECHNOLOGY: Electric Vehicles Solid-state battery manufacturing BENEFITS: Low cost and scalable production High ionic conductivity Excellent cycling stability due to suppressed dendrite formation BACKGROUND: Solid–state batteries (SSBs) that incorporate the argyrodite Li6PS5Cl (LPSCl) electrolyte are potential substitutes for … [Read more...] about Stable Lithium Phosphorous Sulfur Electrolyte in Solid-State Batteries 2024-001
Attachable and Reusable 3 omega (3ω) Sensors for Metal and Non-metal Thermal Property Measurements 2023-054
APPLICATIONS OF TECHNOLOGY: Thermal conductivity measurement tools Evaluation of thermal performance of electronics, thermal barrier coatings, batteries Electronic packaging BENEFITS: Able to measure a wide range of thermal conductivities Accurate and applicable to a wide range of substrates BACKGROUND: The 3ω technique is a well-established method … [Read more...] about Attachable and Reusable 3 omega (3ω) Sensors for Metal and Non-metal Thermal Property Measurements 2023-054
Fluorination Method for High Energy (Cobalt-Free) Lithium and Manganese Rich Layered Cathodes 2024-048
APPLICATIONS OF TECHNOLOGY: Electric Vehicles Li-ion Batteries BENEFITS: Cathode is made from inexpensive and earth abundant materials. Improved cycling stability and higher energy density compared to conventional and currently available LIBs More environmentally friendly and cost effective compared to current alternatives. BACKGROUND: The … [Read more...] about Fluorination Method for High Energy (Cobalt-Free) Lithium and Manganese Rich Layered Cathodes 2024-048
Cathode Active Material Coating on Carbon Framework for Solid State Batteries with Improved Performance 2024-028
APPLICATIONS OF TECHNOLOGY: Electric vehicles Solid State Batteries BENEFITS: Avoids or minimizes direct contact between carbon and solid electrolyte in the cathode composite while making a good contact between cathode active material and carbon. Exhibits improved cycling stability (longevity) and rate capability (fast charging) of the solid-state … [Read more...] about Cathode Active Material Coating on Carbon Framework for Solid State Batteries with Improved Performance 2024-028