The Global Breathing Battery Market was valued at approximately USD 17.1 million in 2022 and is expected to witness a substantial growth trajectory, reaching an estimated USD 46.6 million by 2032, ...

Challenges in Current Green Hydrogen Production Green hydrogen production is heralded as a cornerstone for a sustainable energy future, yet several obstacles h ...

Zinc's recent fundraising of $31 million in an oversubscribed Series A2 funding round, following a $25 million Series A ...

The team, led by Professor Jeung Ku Kang from the Department of Materials Science and Engineering, created a self-powered hydrogen production system based on a high-performance zinc-air battery.

The team, led by Professor Jeung Ku Kang from the Department of Materials Science and Engineering, created a self-powered hydrogen production system using a high-performance zinc-air battery.

The zinc-air battery-based hydrogen system uses a high-activity, long-lasting catalyst for three key reactions at low temperatures and with simple implementation. Researchers clai ...

Therefore, developing effective catalysts for water-splitting reactions (oxygen and hydrogen evolution) and materials that can stabilize repeated charge and discharge processes (oxygen reduction and ...

Zinc-air battery: A primary battery that absorbs oxygen from the air and uses it as an oxidant. Its advantage is long life, but its low electromotive force is a disadvantage. Hydrogen (H 2 ...