Biomass is recognized as an ideal CO2 neutral, abundant, and renewable resource
substitute to fossil fuels. The rich proton content in most biomass derived materials, such as …

Transition‐metal‐based layered double hydroxides (TM‐LDHs) nanosheets are promising
electrocatalysts in the renewable electrochemical energy conversion system, which are …

Water electrolysis is considered a promising approach for ultrapure hydrogen production.
However, the conventional water electrolysis method suffers from high overpotential, mainly …

Urea oxidation reaction (UOR) is the underlying reaction that determines the performance of
modern urea‐based energy conversion technologies. These technologies include …

The electrochemical urea oxidation reaction (UOR) is an alternative to electrooxidation of
water for energy–saving hydrogen (H2) production. To maximize this purpose, design of …

Nowadays, to alleviate the growing pressure of energy shortages and environmental
pollution, electrochemical energy conversion is seen as a fossil‐free, secondary pollution …

Hydrogen production via electrochemical water splitting is one of the most green and
promising ways to produce clean energy and address resource crisis, but still suffers from …

The urea oxidation reaction (UOR) is a pivotal half-reaction for urea-assisted water splitting
to produce hydrogen, direct urea fuel cells and electrochemical degradation of urea …

The electrocatalytic urea oxidation reaction (UOR) has attracted substantial research
interests over the past few years owing to its critical role in coupled electrochemical systems …

Compared with the traditional electrolysis of water to produce hydrogen, urea‐assisted
electrolysis of water to produce hydrogen has significant advantages and has received …