Researchers at the Paul Scherrer Institute PSI have achieved a breakthrough on the path to practical application of lithium ...

In a groundbreaking study, Professor Won-Jin Kwak in the School of Energy and Chemical Engineering at UNIST, in collaboration with researchers from Hanyang University, have pioneered a method to ...

1. An international research group consisting of NIMS and the Finnish University of Jyväskylä has discovered through its electrode-electrolyte system research that electron and proton (i.e., hydrogen ...

China has moved from talking about solid-state batteries to building the industrial plumbing that could make them real, with ...

The global energy transition, driven by electrification in transport, energy storage and portable devices, hinges on a crucial component: batteries. As demand for batteries skyrockets with projections ...

Lithium-based batteries are great, with different electrode chemistries allowing them to be slotted into a variety of uses. The problem with them has nothing to do with their performance. The ...

Huazhong University scientists have developed a recyclable organic material for rechargeable batteries with aqueous electrolytes. The electrode material is made from inexpensive and organic Azobenzene ...

Famously an insulator, rubber might not seem like a great candidate for an electrolyte material in a battery, but researchers at Georgia Tech have developed a new rubbery material with a high ...

Today's lithium batteries commonly use a liquid electrolyte to carry ions between the two electrodes, but scientists eyeing solid alternatives see some exciting opportunities ahead. Among them are the ...