Solid-state batteries are widely viewed as a key technology for the future of energy storage, particularly for electric ...

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 ...

Correction: On Dec. 8, 2014, this story was changed to correct the explanation for how the researchers improved the Li-air battery’s performance. As engineers look for ways to power electric cars that ...

A solid—rather than liquid—electrolyte between the opposite electrodes of a battery should, in theory, enable a rechargeable ...

The work, led by Chunsheng Wang at the University of Maryland, offers a relatively simple way to make lithium-ion batteries more durable using standard materials and ...

Global Solid-State Electrolyte Market Forecast to Grow at 98.9% CAGR Through 2031 Driven by EV Innovation | Valuates Reports ...

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 ...

Electric vehicles have raced ahead on performance and price, but their batteries still struggle with durability, charging ...

Dendrites – thin conductive filaments that form inside lithium batteries – reduce the life of these cells and are often responsible for them catching fire. Scientists working at the Pacific Northwest ...

Supercapacitors can store more energy than and are preferable to batteries because they are able to charge faster, mainly due to the vertical graphene nanosheets that are larger and positioned closer ...