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Noble metal Pt‐based catalysts have slow water dissociation kinetics at high pH conditions, making it difficult for water molecules to be electrochemically activated. Utilizing ligand effect and strain effect to tailor catalytic active sites is a common method, while the understanding of mechanism of their interaction remains obscure due to the complexity of the process. This study proposes a pulse‐induced...
The development of ultrasmall transition-metal dichalcogenide (such as MoS2, MoSe2) nanostructures is an efficient strategy to increase the active edge sites and overall performance for hydrogen evolution reaction. Here, we report an in-situ tearing strategy to produce the carbon nanotube supported subnanometer ternary MoSeS (denoted as CNTs@NiSe@MoSeS) for efficient hydrogen evolution. Large (18...
Hydrogen production from water splitting through an efficient photoelectrochemical route requires photoinduced electron transfer from light harvesters to efficient electrocatalysts. Here, the plasmon‐enhanced photoelectrical nanocatalysts (NCs) have been successfully developed by coating a monolayer MoS2 on the Cu1.75S‐Au hetero‐nanoparticle for hydrogen evolution reaction (HER). The plasmonic NCs...
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