The production of energy, food, water, and other utensils by fossil fuels generates pollution
that causes constant climate change. To minimize and avoid this phenomenon, opting for …

To satisfy the global energy demands and deal with the climate crisis, it is necessary to
develop an advanced alternative electrocatalyst for hydrogen generation by water …

In the vast realm of scientific inquiry, the pursuit of hydrogen fuel production through
electrochemical water splitting offers a promising gateway to green energy generation …

For electrocatalytic oxygen evolution reactions (OERs), surface microenvironment
associated with the physicochemical states of nanocatalysts acts as a crucial role for …

For the efficient production of green H 2 on an industrial scale, developing durable, cost-
effective electrocatalysts using earth-abundant transition-metals is crucial. Herein, we report …

Amorphous materials are used in multitude of catalytic applications, including
electrocatalytic water-splitting. Identification and investigation of active sites in amorphous …

Commercial alkaline water electrolysis cells typically use highly concentrate KOH as
electrolyte, which strongly influences alteration of catalyst and its performance. Herein, the …

Abstract Development of advanced electrocatalysts for the green hydrogen production by
water electrolysis is an important task to reduce the climate and environmental issues as …

Electrochemical water splitting has been considered as a key pathway to generate
environmentally friendly green hydrogen energy and it is essential to design highly efficient …

Advanced OER/HER electrocatalytic alternatives are crucial for the wide adaptation of green
hydrogen energy. Herein, Ru/NiMnB spherical cluster pillar (SCP), denoted as Ru/NiMnB, is …