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Bridge Bonded Oxygen Ligands between Approximated FeN<sub>4</sub> Sites Confer Catalysts with High ORR Performance

Liyuan Gong, Hao Zhang, Ying Wang, Ergui Luo, Kui Li, Liqin Gao, Yuemin Wang, Zhijian Wu, Zhao Jin, Junjie Ge, Zheng Jiang, Changpeng Liu, Wei Xing

2020Angewandte Chemie International Edition239 citationsDOI

Abstract

Abstract The applications of the most promising Fe—N–C catalysts are prohibited by their limited intrinsic activities. Manipulating the Fe energy level through anchoring electron‐withdrawing ligands is found effective in boosting the catalytic performance. However, such regulation remains elusive as the ligands are only uncontrollably introduced oweing to their energetically unstable nature. Herein, we report a rational manipulation strategy for introducing axial bonded O to the Fe sites, attained through hexa‐coordinating Fe with oxygen functional groups in the precursor. Moreover, the O modifier is stabilized by forming the Fe−O−Fe bridge bond, with the approximation of two FeN 4 sites. The energy level modulation thus created confers the sites with an intrinsic activity that is over 10 times higher than that of the normal FeN 4 site. Our finding opens a novel strategy to manage coordination environments at an atomic level for high activity ORR catalysts.

Topics & Concepts

CatalysisBoosting (machine learning)ChemistryOxygenOxygen atomRational designCombinatorial chemistryStereochemistryMaterials scienceNanotechnologyMoleculeOrganic chemistryComputer scienceMachine learningElectrocatalysts for Energy ConversionCatalytic Processes in Materials ScienceNanomaterials for catalytic reactions
Bridge Bonded Oxygen Ligands between Approximated FeN<sub>4</sub> Sites Confer Catalysts with High ORR Performance | Litcius