Lithium-ion battery (LIB) technology is the most attractive technology for energy storage
systems in today's market. However, further improvements and optimizations are still …

Metal/nitrogen‐doped carbons (M− N− C) are promising candidates as oxygen
electrocatalysts due to their low cost, tunable catalytic activity and selectivity, and well …

Atomically dispersed single-atom catalysts have the potential to bridge heterogeneous and
homogeneous catalysis. Dozens of single-atom catalysts have been developed, and they …

Cost‐effective and environment‐friendly aqueous zinc‐ion batteries (AZIBs) exhibit
tremendous potential for application in grid‐scale energy storage systems but are limited by …

Rationally tuning the local structures of single-atomic active sites for the electrocatalytic N2
reduction reaction (NRR) remains an urgent but worthwhile research topic. Herein, we …

Nickel-rich layered materials are emerging as cathodes of choice for next-generation high
energy density lithium ion batteries intended for electric vehicles. This is because of their …

The electrochemical reduction of CO2 to ethylene provides a carbon-neutral avenue for the
conversion of CO2 to value-added fuels and feedstocks, so contributing to the storage of …

The utilization of anionic redox is one of the most prospective strategies to obtain high
specific capacities in addition to the transition metal redox. The specific local environments …

Activation of oxygen redox represents a promising strategy to enhance the energy density of
positive electrode materials in both lithium and sodium‐ion batteries. However, the large …

Anion redox reactions offer a means of enhancing the capacity of layered sodium transition
metal oxide positive electrode materials. However, oxygen redox reactions typically show …