Toward Improved Anodic Stability of Ether-Based Electrolytes for Rechargeable Magnesium Batteries

Abstract: Rechargeable magnesium batteries (RMBs) are one of the promising energy-storage technologies for sustainable energy storage due to the abundant resources and intrinsically remarkable energy-storage properties of magnesium metal. However, to compete with alternative technologies, such as present lithiumion batteries, there is a need to improve their energy density. One of the approaches to accomplish the above demand is to use highvoltage cathodes. The poor anodic stability of the current etherbased electrolyte… Show more

“…While promising, these approaches suffer from several fundamental and technical problems. The VSI reports significant achievements for the Mg-metal batteries in developing new electrolytes and electrode active materials through collaboration between material scientists and computational scientists in Japan. − The VSI describes extensive studies on the elucidating mechanisms of oxygen electrode reaction, developing electrode materials and solvents, and establishing cell design strategies for the practical implementation of Li–O 2 batteries. − …”

Research and Development of Novel Secondary Batteries in Japan

“…While promising, these approaches suffer from several fundamental and technical problems. The VSI reports significant achievements for the Mg-metal batteries in developing new electrolytes and electrode active materials through collaboration between material scientists and computational scientists in Japan. − The VSI describes extensive studies on the elucidating mechanisms of oxygen electrode reaction, developing electrode materials and solvents, and establishing cell design strategies for the practical implementation of Li–O 2 batteries. − …”

Research and Development of Novel Secondary Batteries in Japan

Corrosion of Current Collectors in Metal-Ion Batteries

Mg–Zn–Cl-integrated functional interface for enhancing the cycle life of Mg electrodes