As one of the light materials with superior biocompatible properties, magnesium has drawn
more attention in recent years. More industries, such as the automotive, aerospace, and …

In the quest for a sustainable society, energy storage technology is destined to play a central
role in the future energy landscape. Breakthroughs in materials and methods involving …

Rechargeable Mg batteries are a promising post-Li-ion battery technology, but their
development has been critically hampered by the passivating nature of Mg, particularly in …

Magnesium batteries are one of the most promising post-lithium technologies. One of the
main challenges preventing its commercialization is to find an efficient and safe electrolyte …

Abstract Deep Eutectic Solvents (DESs) are an emerging class of materials showing a
marked depression in melting points compared to those of the neat constituents and …

BATTERY 2030+ targets the development of a chemistry neutral platform for accelerating the
development of new sustainable high‐performance batteries. Here, a description is given of …

Many of the challenges faced in the development of lithium-ion batteries (LIBs) and next-
generation technologies stem from the (electro) chemical interactions between the …

Sluggish kinetics and inferior redox reversibility have limited the further development of the
CuS cathode material in advanced rechargeable magnesium batteries. Herein, a cation …

The development of high energy density battery technologies based on divalent metals as
the negative electrode is very appealing. Ca and Mg are especially interesting choices due …

High-performance electrolytes are at the heart of magnesium battery development. Long-
term stability along with the low potential difference between plating and strip** processes …