Litcius/Paper detail

Unconventional <i>hcp/fcc</i> Nickel Heteronanocrystal with Asymmetric Convex Sites Boosts Hydrogen Oxidation

Hairui Pan, Zhuo‐Qi Shi, Xiaozhi Liu, Shifeng Jin, Jiaju Fu, Liang Ding, Shuqi Wang, Jian Li, Linjuan Zhang, Dong Su, Chongyi Ling, Yucheng Huang, Cailing Xu, Tang Tang, Jin‐Song Hu

2024Angewandte Chemie International Edition20 citationsDOIOpen Access PDF

Abstract

Abstract Developing non‐platinum group metal catalysts for the sluggish hydrogen oxidation reaction (HOR) is critical for alkaline fuel cells. To date, Ni‐based materials are the most promising candidates but still suffer from insufficient performance. Herein, we report an unconventional hcp/fcc Ni (u‐ hcp/fcc Ni) heteronanocrystal with multiple epitaxial hcp/fcc heterointerfaces and coherent twin boundaries, generating rugged surfaces with plenty of asymmetric convex sites. Systematic analyses discover that such convex sites enable the adsorption of *H in unusual bridge positions with weakened binding energy, circumventing the over‐strong *H adsorption on traditional hollow positions, and simultaneously stabilizing interfacial *H 2 O. It thus synergistically optimizes the HOR thermodynamic process as well as reduces the kinetic barrier of the rate‐determining Volmer step. Consequently, the developed u‐ hcp/fcc Ni exhibits the top‐rank alkaline HOR activity with a mass activity of 40.6 mA mg Ni −1 (6.3 times higher than fcc Ni control) together with superior stability and high CO‐tolerance. These results provide a paradigm for designing high‐performance catalysts by shifting the adsorption state of intermediates through configuring surface sites.

Topics & Concepts

NickelMaterials scienceHydrogenMetallurgyChemistryOrganic chemistryElectrocatalysts for Energy ConversionCopper-based nanomaterials and applicationsCatalytic Processes in Materials Science
Unconventional <i>hcp/fcc</i> Nickel Heteronanocrystal with Asymmetric Convex Sites Boosts Hydrogen Oxidation | Litcius