When it’s new, the battery in your phone or electric car works just fine. It charges, discharges, and recharges with smooth ...
Lithium-sulfur (Li-S) batteries combine the abundance and affordability of sulfur with an energy storage capability far beyond that of current lithium-ion technologies. Practical deployment, however, ...
Energy storage usually brings to mind batteries, capacitors, tanks of hydrogen, or maybe some giant gravity system hauling ...
Like a delicate fabric that becomes damaged during drying, a promising next-generation battery material has faced an unexpected challenge: Removing water to improve performance can actually shorten ...
A new study reveals that dual-atom catalysts behave in a fundamentally different way than scientists previously thought, challenging a long-standing model used to predict catalytic performance.
Scientists have announced a breakthrough in our understanding of how batteries work, saying it could lead to “big leaps” in ...
Researchers from the Universities of Warwick and Dundee in the UK have published findings that challenge the conventional ...
CATL has identified lithium-air batteries as its next-generation technology, targeting ultra-high energy density and EV ...
All-solid-state batteries (ASSBs) are widely viewed as a safer and more powerful alternative to conventional lithium-ion batteries, but their promise is often limited by unstable interfaces inside the ...
TRUNNANO (Luoyang Tongrun Nano Technology Co., Ltd.), a global leader in nanotechnology and advanced materials development, ...
In an international experiment, researchers observed Jahn–Teller polarons—quasiparticles that could play an important role in future ultrafast spintronic devices. These polarons emerged within the ...