Hybrid transition metal (V, Fe, and Co) oxide/sulfide catalysts for highly efficient overall water splitting

Abstract: Hydrogen is an ideal clean energy without any carbon emissions and producing hydrogen by water electrolysis is also eco-friendly and efficient. Herein we proposed a universal strategy of synthesizing transition...

“…Transition metal sulfides are some of the excellent substituents in view of their catalytic activities and chemical stabilities as bifunctional HER/OER catalysts. [15][16][17][18][19][20] The enhancement of the electro-catalytic performance is correlated with the surface active sites and chemical composition of the composite materials. [21][22][23][24] Controlling the morphology, cationic/anionic doping and constructing defects to improve the performance of sulfides are effective strategies.…”

A corrosion-engineered transition metal multi-anionic interface for efficient electrocatalysis toward overall water splitting

“…Transition metal sulfides are some of the excellent substituents in view of their catalytic activities and chemical stabilities as bifunctional HER/OER catalysts. [15][16][17][18][19][20] The enhancement of the electro-catalytic performance is correlated with the surface active sites and chemical composition of the composite materials. [21][22][23][24] Controlling the morphology, cationic/anionic doping and constructing defects to improve the performance of sulfides are effective strategies.…”

A corrosion-engineered transition metal multi-anionic interface for efficient electrocatalysis toward overall water splitting

Mn-doped nickel–iron phosphide heterointerface nanoflowers for efficient alkaline freshwater/seawater splitting at high current densities

Triangular nanosheet arrays of O-doped Co/Fe disulfides as highly efficient electrocatalysts for the hydrogen evolution reaction