A recent survey of magnesium sacrificial anode cathodic protection systems installed on Bahrain Petroleum Co. (BAPCO) pipelines in 1998 revealed that many of the anodes had failed prematurely and ...

Most of the batteries we use these days, whether rechargeable or not, are generally self-contained affairs. They come in a sealed package, with the anode, cathode, and electrolyte all wrapped up ...

Achieving high-performance anodes relies on the coupled effects of interfacial electric fields and controllable deposition morphology. Previous strategies, such as interface modification, structural ...

Magnesium is a promising battery material because of its high energy-storage capacity and its safety profile, making it particularly attractive for powering electric vehicles. Practical magnesium ...

The growth of the electric vehicle market demands innovative, sustainable battery solutions and higher efficiency from battery systems. Scientific investigations have shown that magnesium can serve as ...

Scientists have pioneered a method to enable the reversible chemistry of magnesium metal in the noncorrosive carbonate-based electrolytes and tested the concept in a prototype cell. The technology ...

This study is led by Prof Zhonghua Zhang (School of Materials Science and Engineering, Shandong University). Relatively arduous alloying reaction and sluggish diffusion kinetics of Sn-based anodes ...

Researchers are developing magnesium batteries to address the environmental and geopolitical issues associated with lithium-ion batteries, which currently dominate the electric vehicle market.

Energy diversification is necessary for global sustainability and the minimization of industrial and automotive pollution. Low-cost, high energy density batteries utilizing environmentally friendly ...