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Transition‐Metal–Boron Intermetallics with Strong Interatomic d–sp Orbital Hybridization for High‐Performance Electrocatalysis

Xuan Ai, Xu Zou, Xu Zou, Hui Chen, Yu‐tong Su, Xilan Feng, Qiuju Li, Yipu Liu, Yu Zhang, Xiaoxin Zou, Xiaoxin Zou

2020Angewandte Chemie56 citationsDOI

Abstract

Abstract A theoretical and experimental study gives insights into the nature of the metal–boron electronic interaction in boron‐bearing intermetallics and its effects on surface hydrogen adsorption and hydrogen‐evolving catalytic activity. Strong hybridization between the d orbitals of transition metal (T M ) and the sp orbitals of boron exists in a family of fifteen T M –boron intermatallics (T M :B=1:1), and hydrogen atoms adsorb more weakly to the metal‐terminated intermetallic surfaces than to the corresponding pure metal surfaces. This modulation of electronic structure makes several intermetallics (e.g., PdB, RuB, ReB) prospective, efficient hydrogen‐evolving materials with catalytic activity close to Pt. A general reaction pathway towards the synthesis of such T M B intermetallics is provided; a class of seven phase‐pure T M B intermetallics, containing V, Nb, Ta, Cr, Mo, W, and Ru, are thus synthesized. RuB is a high‐performing, non‐platinum electrocatalyst for the hydrogen evolution reaction.

Topics & Concepts

IntermetallicBoronTransition metalElectrocatalystCatalysisMaterials scienceHydrogenOrbital hybridisationCrystallographyChemistryInorganic chemistryPhysical chemistryMolecular orbitalMetallurgyElectrochemistryMoleculeMolecular orbital theoryOrganic chemistryElectrodeAlloyElectrocatalysts for Energy ConversionHydrogen Storage and MaterialsMXene and MAX Phase Materials
Transition‐Metal–Boron Intermetallics with Strong Interatomic d–sp Orbital Hybridization for High‐Performance Electrocatalysis | Litcius