Since the oil crisis in the 1970s, the importance of rechargeable batteries has been noted by
both academia and industry. This has become more prominent with the increasing demand …

Magnesium-ion batteries (MIBs) are considered strong candidates for next-generation
energy-storage systems owing to their high theoretical capacity, divalent nature and the …

Understanding the electrolyte–metal anode interface passivation mechanism is crucial for
the buildup of sustainable and low cost alkali (earth) metal batteries. Trace H2O-assisted …

The rapidly expanding field of nonaqueous multivalent intercalation batteries offers a
promising way to overcome safety, cost, and energy density limitations of state-of-the-art Li …

The need for energy storage technologies that meet the demands for safety, sustainability,
and high energy density has spurred increased interests in rechargeable Mg batteries …

Rechargeable battery technologies based on the use of metal anodes coupled to multivalent
charge carrier ions (such as Mg 2+, Ca 2+ or Al 3+) have the potential to deliver …

Rechargeable magnesium batteries (RMBs) have been considered as one of the most
viable battery chemistries amongst the “post” lithium‐ion battery (LIB) technologies owing to …

Secondary magnesium batteries are still in the research stage, after the first prototype of a
magnesium-based battery was demonstrated almost two decades ago. Since this …

Rechargeable magnesium (Mg) batteries based on conventional electrolytes are seriously
plagued by the formation of the ion‐blocking passivation layer on the Mg metal anode. By …

The inherent limitations of lithium (Li)-ion batteries have sparked interest in exploring
alternative technologies, especially those relying on metallic anodes: monovalent Li and …