The inability of current battery technologies to keep up with the performance requirements of industry is pushing forward developments in electrochemistry. Specifically, the battery's …
Magnesium batteries have long been pursued as potentially low-cost, high-energy and safe alternatives to Li-ion batteries. However, Mg2+ interacts strongly with electrolyte solutions …
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 …
Until now, a key barrier toward realizing a high energy density Mg 2+ battery has been the limited understanding of mechanisms governing multivalent metal electrodeposition. This …
Magnesium batteries could offer high energy density and safety due to the non-dendritic Mg metal anode. However, Mg 2+ ingress into and diffusion within cathode materials are …
Transmission electron microscopy (TEM) has long been an essential tool for understanding the structure of materials. Over the past couple of decades, this venerable technique has …
Resources used in lithium‐ion batteries are becoming more expensive due to their high demand, and the global cobalt market heavily depends on supplies from countries with high …
This feature article covers new directions in the fundamental and applied chemistry of the closo-carborane anions [HCB11H11]− and [HCB9H9]−, as well as some related chemistry …
The development of high-performance Mg-alloyable anodes operable in conventional electrolytes could be a critical breakthrough for the viability of magnesium-ion batteries …