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Hydrogen production from electrochemical water splitting is very promising but still challenging. In article number 1906972, Li Song and co‐workers develop nickel phosphide nanocatalysts incorporated with single‐atomic noble metal for highly efficient alkaline water electrolysis. The doped metallic sites can cause localized structure polarization, largely promoting the hydrogen evolution from phosphide...
Developing efficient electrocatalysts for alkaline water electrolysis is central to substantial progress of alkaline hydrogen production. Herein, a Ni5P4 electrocatalyst incorporating single‐atom Ru (Ni5P4‐Ru) is synthesized through the filling of Ru3+ species into the metal vacancies of nickel hydroxides and subsequent phosphorization treatment. Electron paramagnetic resonance spectroscopy, X‐ray‐based...
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