Direct conversion of metal organic frameworks into ultrafine phosphide nanocomposites in multicomponent plasma for wide pH hydrogen evolution
2020
Guo, Yanru | Zhang, Chunmei | Wu, Yong | Yu, Hongen | Zhang, Shaojun | Du, Aijun | Ostrikov, Kostya (Ken) | Zheng, Jie | Li, Xingguo
Benefiting from tailorable properties through electronic states, chemical composition and crystal structures, transition metal phosphides (TMPs) present a great impetus for electrocatalytic water splitting. However, most TMP nanostructures are prepared via rigorous synthetic methods and harmful precursors, restricting their applications. Meanwhile, the rational design of structural characteristics and surface modification of TMPs needs to be considered to improve their catalytic activity and durability in both alkaline and acidic media. Here we report a simultaneous MOF decomposition and phosphorization strategy in multicomponent NH₃ plasma to prepare nickel phosphide encapsulated in N-doped carbon layers (Ni₁₂P₅@NC). The combination of the high chemical reactivity and low thermal effect of plasma enables low-temperature phosphorization with red phosphorus as the P source. Carambola-like Ni₁₂P₅@NC exhibits low overpotential (50 mV in alkali and 82 mV in acid, 20 mA cm⁻²) and superior operational stability, showing promising application toward water electrolysis.
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