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Achieving Photocatalytic Overall Nitrogen Fixation via an Enzymatic Pathway on a Distorted CoP<sub>4</sub> Configuration

Xin Wang, Yuqi Zhao, Xi Wu, Bin Zhang, Jian Tian, Wai‐Yeung Wong, Wai‐Yeung Wong, Fuxiang Zhang, Fuxiang Zhang

2024Angewandte Chemie International Edition14 citationsDOI

Abstract

Abstract Photocatalytic nitrogen (N 2 ) fixation over semiconductors has always suffered from poor conversion efficiency owing to weak N 2 adsorption and the difficulty of N≡N triple bond dissociation. Herein, a Co single‐atom catalyst (SAC) model with a C‐defect‐evoked CoP 4 distorted configuration was fabricated using a selective phosphidation strategy, wherein P‐doping and C defects co‐regulate the local electronic structure of Co sites. Comprehensive experiments and theoretical calculations revealed that the distorted CoP 4 configuration caused a strong charge redistribution between the Co atoms and adjacent C atoms, minimizing their electronegativity difference. Consequently, the N 2 adsorption pattern switched from an “end‐on” to a “side‐on” mode with a high N 2 adsorption energy of −1.40 eV and an elongated N−N bond length of 1.20 Å, notably decreasing the N 2 adsorption/activation energy barrier. In the absence of sacrificial agents, the Co SAC achieved excellent photocatalytic overall N 2 fixation performance via an enzymatic pathway. The NH 3 yielding rate peaked at 1249.5 μmol h −1 g −1 with an apparent quantum yield of 3.51 % at 365 nm. Moreover, the selective phosphidation strategy has universality for synthesizing other SACs, such as those containing Ni and Fe. This study offers new insight into co‐regulating the electronic structure of SACs for efficient photocatalytic overall N 2 fixation.

Topics & Concepts

PhotocatalysisAdsorptionElectronegativityNitrogenChemistryCatalysisPhotochemistryMaterials sciencePhysical chemistryOrganic chemistryAdvanced Photocatalysis TechniquesAmmonia Synthesis and Nitrogen ReductionNanomaterials for catalytic reactions
Achieving Photocatalytic Overall Nitrogen Fixation via an Enzymatic Pathway on a Distorted CoP<sub>4</sub> Configuration | Litcius