Electrochemical water splitting is a mature technology for hydrogen generation. Numerous
studies have focused on the development of highly efficient electrocatalysts to produce …

The investigation of inexpensive, effective, environmentally friendly next-generation energy
storage devices is an urgent task due to the discontinuities of new generation energy that …

The limited resources and uneven distribution of lithium stimulate strong motivation to
develop new rechargeable batteries that use alternative charge carriers. Potassium-ion …

A growing number of emerging organic contaminants associated with the potential risks for
ecosystem and human health are frequently detected in environment. Sulfate radical-based …

Exploring earth‐abundant electrocatalysts with excellent activity, robust stability, and
multiple functions is crucial for electrolytic hydrogen generation. Porous phosphorized …

Electrochemical water splitting powered by renewable energy sources has been considered
as an attractive hydrogen generation technology with high‐purity product and zero carbon …

Heterointerface engineering is evolving as an effective approach to tune electromagnetic
functional materials, but the mechanisms of heterointerfaces on microwave absorption (MA) …

Transition metal dichalcogenides (TMDCs) hold great promise for electrochemical energy
conversion technologies in view of their unique structural features associated with the …

Delicate design of nanostructures for oxygen‐evolution electrocatalysts is an important
strategy for accelerating the reaction kinetics of water splitting. In this work, Ni–Fe layered …

With the increasing demands for fuels, it's urgent to exploit energy devices with excellent
performance. The MOF-derived materials are promising candidates for energy conversion …