Optimized stack pressure can double lithium-ion pouch cell cycle life by balancing cathode cracking and lithium plating.
Backed by the British government’s £452 million Battery Innovation Program, clean-tech firm Altilium is spearheading a ...
Rechargeable magnesium batteries promise higher volumetric capacity and greater resource abundance than lithium-ion systems, ...
The 19th century was an absolutely electrifying era, including in a literal sense. Although the phenomenon of electricity had ...
Dry battery electrodes promise a cleaner way to build the lithium-ion cells that power electric vehicles and grid storage.
Cambridge researchers found that applying the right constant pressure to lithium-ion battery cells could double their ...
Xylan 5230 is a chrome-free, RoHS-compliant fluoropolymer coating applied through a dip-spin process. It provides controlled ...
The key to making longer-lasting electric vehicle batteries may not be specialised materials or new chemistry, but simple ...
Cu electroplating for gap filling in damascene structures is a pivotal process in the fabrication of advanced interconnects, which are essential for high-performance integrated circuit (IC) devices.
All-solid-state batteries (ASSBs) using silicon (Si) anodes are among the most promising candidates for high-energy and long-lasting power sources, particularly for electric vehicles. Si can store ...