ECU's Dr. Muhammad Rizwan Azhar led the project which identified the advantages of zinc-air batteries, including their environmental friendliness, low cost, and safety. The university's breakthrough ...

Battery researchers at Australia's Edith Cowan University discovered the advantages of zinc-air batteries over lithium-ion for electric vehicle applications. Zinc batteries, claimed to be the oldest ...

If you’ve got an interest in technology, it’s inevitable that your feed will feature a constant supply of stories with titles in the vein of “New battery breakthrough offers unlimited life and ...

Zinc-air batteries have been under investigation for many years. Despite substantial research efforts, their commercialization has not significantly progressed. Recent research has successfully ...

With potential high density, low cost, and a nature-friendly makeup, zinc-air batteries are touted to be the future of many energy devices. Still, their low voltage of 1.4 V remains a barrier to more ...

While hydrogen peroxide (H 2 O 2) has numerous applications, its industrial production is costly and energy-intensive due to rare metal catalysts. Zinc is an abundant and historically-used element … ...

A revolutionary advancement in energy storage technology has been achieved with the development of a 3D zinc–organic polymer battery. This innovative battery boasts a remarkable 40,000-cycle lifespan ...

A team of researchers at Western Australia’s Edith Cowan University have redesigned zinc-air batteries and claim to have overcome the technology’s notorious power output limitations. “The new design ...

Sharp plans to test its zinc-air batteries by FY2025. Save my User ID and Password Some subscribers prefer to save their log-in information so they do not have to enter their User ID and Password each ...

TORONTO--(BUSINESS WIRE)--e-Zinc, the company enabling sustainable, long-duration energy storage with its zinc-air battery, today announced it has raised an additional USD $31 million in follow-on ...

A tiny battery designed by MIT engineers could enable the deployment of cell-sized, autonomous robots for drug delivery within in the human body, as well as other applications such as locating leaks ...