用于高活性和稳定酸性析氧的钴-氮单原子催化剂的配体工程

Ligand Engineering of Co-N Single-Atom Catalysts for Highly-Active and Stable Acidic Oxygen Evolution.

作者信息

Jeong Taeyoung, Kim Kiwon, Kim Byung-Hyun, Choi Sang-Il, Choi Chang Hyuck, Kang Joonhee, Kim Myeongjin

机构信息

School of Energy Engineering, Kyungpook National University, 80 Daehak-ro, Bukgu, Daegu, 41566, Republic of Korea.

Department of Chemical and Molecular Engineering, Hanyang University ERICA, 55 Hanyangdaehak-ro, Sangnok-gu, Ansan-si, Gyeonggi-do, 15588, Republic of Korea.

出版信息

Adv Sci (Weinh). 2025 Jul;12(27):e2502230. doi: 10.1002/advs.202502230. Epub 2025 Apr 30.

DOI:10.1002/advs.202502230

PMID:40305783

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12279189/

Abstract

The development of stable and efficient single-atom catalysts (SACs) for the oxygen evolution reaction (OER) in acidic media remains challenging. This work reports a novel NH-assisted pyrolysis strategy to synthesize Co-N SACs with controlled nitrogen coordination environments on crumpled graphene supports. The pyrrolic N-coordinated Co sites demonstrate superior OER activity compared to their pyridinic counterparts, achieving an overpotential of 351 mV at 10 mA cm in 0.5 m HSO. Combined density functional theory calculations and operando X-ray absorption spectroscopy reveal that the pyrrolic coordination environment facilitates enhanced OH adsorption and subsequent OER kinetics due to its unique electronic structure and geometric flexibility. A multi-layered protective mechanism in the pyrrolic system enables exceptional stability during long-term acidic OER operation, stemming from higher defect formation energy of Co sites and strategic distribution of sacrificial nitrogen species in the graphene network. These findings provide fundamental insights into designing stable single-atom catalysts for challenging electrochemical applications.

摘要

开发用于酸性介质中析氧反应（OER）的稳定高效单原子催化剂（SAC）仍然具有挑战性。这项工作报道了一种新型的NH辅助热解策略，用于在皱缩的石墨烯载体上合成具有可控氮配位环境的Co-N SAC。与吡啶型Co位点相比，吡咯型N配位的Co位点表现出优异的OER活性，在0.5 m HSO中10 mA cm时过电位为351 mV。结合密度泛函理论计算和原位X射线吸收光谱表明，吡咯型配位环境由于其独特的电子结构和几何灵活性，促进了OH吸附增强和随后的OER动力学。吡咯体系中的多层保护机制在长期酸性OER操作过程中具有出色的稳定性，这源于Co位点更高的缺陷形成能以及石墨烯网络中牺牲性氮物种的策略性分布。这些发现为设计用于具有挑战性的电化学应用的稳定单原子催化剂提供了基本见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d872/12279189/5bef2cd19455/ADVS-12-2502230-g004.jpg

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用于高活性和稳定酸性析氧的钴-氮单原子催化剂的配体工程

Ligand Engineering of Co-N Single-Atom Catalysts for Highly-Active and Stable Acidic Oxygen Evolution.

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