Electrolytes will play a central role in the development of next‐generation batteries with
increased energy density and cycle life and reduced cost. While molecular designs can …

All-solid-state metal–oxygen batteries are considered promising for next-generation energy
storage applications owing to their superior theoretical capacity, energy density, and safety …

Wide adaptation of intermittent renewable energies into the power grid and more affordable
electric vehicles cannot be realized without low-cost, high-energy, and long-life energy …

Electrochemical two‐electron oxygen reduction reaction (2 e− ORR) to produce hydrogen
peroxide (H2O2) is a promising alternative to the energetically intensive anthraquinone …

Transition metal nitrides have shown promise as electrocatalysts in proton exchange
membrane fuel cells and electrolyzers, but the instability of these nitrides in acid has limited …

Alkali metal–oxygen batteries can provide greater specific energy than Li-ion batteries but
often suffer from low power density, cycleability, and energy efficiency due to the sluggish …

Alkali metal–oxygen batteries with high theoretical energy density are regarded as one of
the promising next-generation batteries. The suitable catalyst is the key to realize the …

Lithium oxygen battery (LOB) is a highly promising energy storage device for the next
generation electric vehicles due to its high theoretical energy density. However, many …

Li-O2 and Na-O2 batteries offer the promise of increased energy densities compared to Li-
ion batteries but suffer from poor power and cycle life. Despite considerable research on the …

Towards the practical application of nonaqueous Li–O2/air batteries (LOBs/LABs) with high
theoretical energy density (3500 W h kg− 1), they should work stably, effectively, and safely …