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Unraveling the Function of Metal–Amorphous Support Interactions in Single‐Atom Electrocatalytic Hydrogen Evolution

Yang Liu, Xinghui Liu, Amol R. Jadhav, Taehun Yang, Yosep Hwang, Hongdan Wang, Lingling Wang, Yongguang Luo, Ashwani Kumar, Jinsun Lee, Huong Thi Bui, Min Gyu Kim, Hyoyoung Lee

2021Angewandte Chemie37 citationsDOI

Abstract

Abstract Amorphization of the support in single‐atom catalysts is a less researched concept for promoting catalytic kinetics through modulating the metal–support interaction (MSI). We modeled single‐atom ruthenium (Ru SAs ) supported on amorphous cobalt/nickel (oxy)hydroxide (Ru‐a‐CoNi) to explore the favorable MSI between Ru SAs and the amorphous skeleton for the alkaline hydrogen evolution reaction (HER). Differing from the usual crystal counterpart (Ru‐c‐CoNi), the electrons on Ru SAs are facilitated to exchange among local configurations (Ru‐O‐Co/Ni) of Ru‐a‐CoNi since the flexibly amorphous configuration induces the possible d–d electron transfer and medium‐to‐long range p–π orbital coupling, further intensifying the MSI. This embodies Ru‐a‐CoNi with enhanced water dissociation, alleviated oxophilicity, and rapid hydrogen migration, which results in superior durability and HER activity of Ru‐a‐CoNi, wherein only 15 mV can deliver 10 mA cm −2 , significantly lower than the 58 mV required by Ru‐c‐CoNi.

Topics & Concepts

RutheniumCatalysisAmorphous solidDissociation (chemistry)Cobalt hydroxideHydroxideHydrogenCrystallographyMaterials scienceTransition metalNickelMetalElectron transferHydrogen atomAtom (system on chip)ChemistryPhotochemistryInorganic chemistryPhysical chemistryElectrodeElectrochemistryMetallurgyOrganic chemistryComputer scienceAlkylEmbedded systemElectrocatalysts for Energy ConversionAdvanced battery technologies researchElectrochemical Analysis and Applications