Replacing fossil fuels with energy sources and carriers that are sustainable, environmentally
benign, and affordable is amongst the most pressing challenges for future socio-economic …

Transition metal oxide electrocatalysts have received significant research interest toward the
advancement of environmentally acceptable electrochemical applications and systems …

Electrochemical water splitting represents one of the most promising technologies to
produce green hydrogen, which can help to realize the goal of achieving carbon neutrality …

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 …

For decades, turnover frequency (TOF) has served as an accurate descriptor of the intrinsic
activity of a catalyst, including those in electrocatalytic reactions involving both fuel …

Water splitting has been regarded as a sustainable and environmentally-friendly technique
to realize green hydrogen generation, while more energy is consumed due to the high …

Hydrogen holds immense potential as a sustainable energy source as a result of its eco-
friendliness and high energy density. Thus, hydrogen can solve the energy and …

Hydrogen produced via water electrolysis can act as an ideal clean chemical fuel with
superb gravimetric energy density and high energy conversion efficiency, solving the …

Transition metal hydroxides (M‐OH) and their heterostructures (X| M‐OH, where X can be a
metal, metal oxide, metal chalcogenide, metal phosphide, etc.) have recently emerged as …

Catalysts play a crucial role in water electrolysis by reducing the energy barriers for
hydrogen and oxygen evolution reactions (HER and OER). Research aims to enhance the …