Most batteries are rigid and incompatible with water. But people work and play in oceans and estuaries, and they could ...

Most batteries are rigid and incompatible with water. But people work and play in oceans and estuaries, and they could ...

The comments by Pei and Heeger on our paper published in Nature Materials 1 call for a clarification of the mechanism of the operation of light-emitting electrochemical cells (LEECs). The simplest ...

Researchers develop a catalyst boosting lithium-air batteries with 0.52V, 960-hour stability, and 95.8% efficiency, advancing energy storage.

Advancements in Aqueous Zinc Batteries: strategic EEI layer formation enhances stability and performance, crucial for ...

Dr. Park Jun-woo's team successfully suppresses the dissolution of lithium polysulfides using CNT and oxygen functional ...

1,3-dimethylimidazolium iodide significantly enhances lithium-air battery efficiency and longevity by optimizing electrochemical reactions and anode stability.

But people work and play in oceans and estuaries, and they could benefit from flexible and saltwater-safe power sources. Now, ...