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

Abstract Design and construction of low‐cost electrocatalysts with high catalytic activity and
long‐term stability is a challenging task in the field of catalysis. Metal‐organic frameworks …

Electrochemical water splitting is an appealing and promising approach for energy
conversion and storage. As a key half-reaction of electricity-driven water splitting, the oxygen …

Oxygen reduction reaction (ORR), oxygen evolution reaction (OER) and hydrogen evolution
reaction (HER) are three key reactions for the development of green and sustainable energy …

Developing efficient and low‐cost replacements for precious metals as electrocatalysts
active in electrochemical reactions—the oxygen evolution reaction (OER), hydrogen …

Metal–organic framework (MOF) nanoparticles, also called porous coordination polymers,
are a major part of nanomaterials science, and their role in catalysis is becoming central …

With the ultimate atomic utilization, well‐defined configuration of active sites and unique
electronic properties, catalysts with single‐atom sites (SASs) exhibit appealing performance …

Electrolytic hydrogen is expected to play a key role in the production of green fuels and
chemicals, while contributing to balancing consumption and supply in the future electricity …

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 …

The sustainable and scalable production of hydrogen through hydrogen evolution reaction
(HER) and oxygen through oxygen evolution reaction (OER) in water splitting demands …