New Aspects of Spillover Effect in Catalysis. Edited by T. Inui, K. Fujimoto, T. Uchijima, and M. Masai. Studies in Surface and Catalysis, Vol. 77. Elsevier, Amsterdam, 1993. 435 pp

Abstract

Reasonable structure design and fine electronic modulation are the keys to achieving the platinum-like hydrogen evolution reaction (HER) performance on Ru-based catalyst, but also challenges. Here, the integration of uniformly dispersed ultra-fine Ru nanoparticles with β-hexagonal ammonium tungsten bronze (β-HATB) nanowires is reported as an efficient acidic electrocatalyst. Due to the strong metal-support interaction, the surface charge state of Ru is effectively regulated, forming a mixed valence state composed of zero valence and offset state. The prepared [email protected]β-HATB/CC exhibits a Pt-like catalytic activity with a small overpotential of 25 mV and a very low Tafel slope of 27.6 mV dec−1. In-situ Raman spectroscopy and electrochemical analysis reveal that β-HATB does not directly participate in HER reaction and hydrogen spillover effect (Hads from β-HATB to Ru NPs) is not the main reason for the hydrogen evolution activity, but β-HATB can optimize the kinetics of hydrogen adsorption/desorption behavior on Ru surface and provide a stable and fast charge transfer channel, thus improving HER activity.