A thin cation-exchange membrane guides lithium ions into a moving stream of water. At the counter electrode, water splits to ...

As global electric vehicle adoption accelerates, end-of-life battery packs are quickly becoming a major waste stream. Lithium ...

Researchers at Massachusetts Institute of Technology (MIT) have quantified lithium intercalation rates across various battery materials and utilized this information to create a novel model explaining ...

The biggest obstacle to mass production and use of sulfur-based batteries is durability. A good lithium-ion battery, like those in an electric vehicle, can go through thousands of cycles of ...

The new process from Rice University efficiently produces high-purity lithium hydroxide from battery waste, streamlining ...

Lithium-ion batteries (LiBs) are currently the most widely used rechargeable batteries worldwide, powering countless portable ...

Given the high energy density and eco-friendly characteristics, lithium-carbon dioxide (Li-CO₂) batteries have been considered to be a next-generation energy technology to promote carbon neutral and ...

Researchers create cobalt single-atom catalysts in porous carbon nanofibers to speed redox reactions and stop polysulfide ...