期刊
APPLIED SURFACE SCIENCE
卷 612, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.apsusc.2022.155862
关键词
Iridium -based alloy; Transition metal alloy; Colloidal synthesis; Hydrogen evolution reaction
Alloying earth-abundant transition metals with iridium can reduce the usage of precious metal without sacrificing its catalytic activity. In this study, a new iridium-based ternary alloy nanoparticle with tungsten and transition metals (cobalt, iron, and nickel) was synthesized and showed excellent catalytic activity and mass activity towards the hydrogen evolution reaction (HER) in an acidic electrolyte.
Alloying earth-abundant transition metals with iridium, one of the promising catalysts for the hydrogen evo-lution reaction (HER), is an effective way to reduce the usage of precious metal without sacrificing its catalytic activity. In particular, tungsten and early transition metals (Co, Fe, and Ni) are known to promote the inherent HER activity by modulating surface adsorption energy, but ternary alloy nanoparticles (NPs) of those elements and their universal synthetic strategy are not well-established yet. In this study, we synthesized a new iridium -based ternary alloy NP with tungsten and transition metals of cobalt, iron, and nickel (Ir-M-W, M = Co, Fe, and Ni) through colloidal synthesis. All the constituent metal elements were uniformly distributed over the particle, forming a homogeneous solid solution. The Ir-M-W NPs showed excellent catalytic activity and mass activity toward HER in an acidic electrolyte compared with the binary Ir-W NPs. In particular, the Ir-Co-W NPs exhibited the lowest overpotential (35.82 mV of overpotential to drive-10 mA cm-2) and the highest mass activity (3.98 A/mgIr) with 40 mu g cm-2 of catalyst loading. Such superior catalytic HER performance could be achieved by the modulation of the surface electronic structure induced by the inclusion of transition metal.
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