A rapid condensation process creates uniform porous oxides with conductive nanomaterials, boosting lithium storage ...
Tech Xplore on MSN
New Method Boosts Lithium Metal Battery Outlook
In science and everyday life, the act of observing or measuring something sometimes changes the thing being observed or ...
Researchers now have a clearer picture of the chemical mechanisms underlying lithium-ion batteries—and it could lead to faster, more efficient batteries for electric vehicles, portable electronics, ...
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Why Lithium-ion Batteries Still Dominate the Tech World
A new MIT study reveals the exact mechanisms of lithium-ion battery charging, paving the way for faster, longer-lasting, and ...
Scientists in Shanghai revive dead batteries with a simple lithium salt that restores their useful life after 12,000 cycles.
Stay updated on lithium market trends—rising prices, demand, US critical minerals fund talks, and new global production. Read ...
While current NMC cells have to retain at least 80% capacity after 2,000 cycles, a battery made through the Kavian system ...
Amid key trends of 2025 related to lithium-ion batteries, drone development, and electric vehicle manufacturing, there is a ...
Researchers at Stanford University have developed a storage material with higher energy density for iron-based batteries.
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Iron-based battery material achieves higher energy state, promising improved storage and voltage
Researchers have created a more energy dense storage material for iron-based batteries. The breakthrough could also improve ...
Interesting Engineering on MSN
Sodium-ion batteries retain 90% capacity after 100 cycles with new tin-based anode
The tin anode demonstrated exceptional stability when paired with a sodium chromium oxide (NaCrO2) cathode. The pouch cells retained around 90 percent of their capacity after 100 charge–discharge ...
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