A new low-power sensor node framework combines sensing and machine learning, with the potential to enhance real-time environmental monitoring while optimizing energy efficiency.

Researchers from the Chinese Academy of Sciences have successfully field-tested a new aluminum-based lithium-ion battery that aims to address winter range loss while supporting fast charging. The post ...

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Due to cheaper cost, ease of production and environmental benefits, battery makers and electric vehicle manufacturers have ...

A Chinese battery manufacturer has just unveiled a battery which comes with fire electricity separation ...

A new dry electrode design developed by researchers at the University of Chicago could ...

A surprising breakthrough could help sodium-ion batteries rival lithium—and even turn seawater into drinking water. Scientists discovered that keeping water inside a key battery material, instead of ...

To meet 2050 climate targets, the International Energy Agency estimates annual EV battery demand will grow from 1TWh in 2024 to more than 3TWh in 2030. Despite their potential, SSBs face major ...

A machine-learning loop searched 14 million battery cathode compositions and found fivefold performance gains across four metrics using fewer than 200 experiments.

A study led by two energy lawyers documents the causes of “lagging” battery energy storage deployment in the Eastern U.S. and recommends 15 policy solutions that could help scale BESS deployment.

Understanding what complex chemical measurements reveal about materials and reactions can take weeks or months of analysis. But now, an AI-powered platform developed by researchers at the Department ...