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High-Density Cobalt Single-Atom Catalysts for Enhanced Oxygen Evolution Reaction.

Pawan KumarKarthick KannimuthuAli Shayesteh ZeraatiSoumyabrata RoyXiao WangXiyang WangSubhajyoti SamantaKristen A MillerMaria MolinaDhwanil TrivediJehad AbedM Astrid Campos MataHasan Al-MahayniJonas BaltrusaitisGeorge K H ShimizuYimin A WuAli SeifitokaldaniEdward H SargentPulickel M AjayanJinguang HuMd Golam Kibria
Published in: Journal of the American Chemical Society (2023)
Single atom catalysts (SACs) possess unique catalytic properties due to low-coordination and unsaturated active sites. However, the demonstrated performance of SACs is limited by low SAC loading, poor metal-support interactions, and nonstable performance. Herein, we report a macromolecule-assisted SAC synthesis approach that enabled us to demonstrate high-density Co single atoms (10.6 wt % Co SAC) in a pyridinic N-rich graphenic network. The highly porous carbon network (surface area of ∼186 m 2 g -1 ) with increased conjugation and vicinal Co site decoration in Co SACs significantly enhanced the electrocatalytic oxygen evolution reaction (OER) in 1 M KOH (η 10 at 351 mV; mass activity of 2209 mA mg Co -1 at 1.65 V) with more than 300 h stability. Operando X-ray absorption near-edge structure demonstrates the formation of electron-deficient Co-O coordination intermediates, accelerating OER kinetics. Density functional theory (DFT) calculations reveal the facile electron transfer from cobalt to oxygen species-accelerated OER.
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