Dynamic orbital hybridization triggered spin-disorder renormalization via super-exchange interaction for oxygen evolution reaction

The oxygen evolution reaction (OER) underpins many aspects of energy storage and conversion in modern industry and technology, but which still be suffering from the dilemma of sluggish reaction kinetics and poor electrochemical performance. Different from the viewpoint of nanostructuring, this work...

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Autores principales: Huang, Peilin, Meng, Ming, Zhou, Gang, Wang, Peifang, Wei, Wenxian, Li, Hao, Huang, Rong, Liu, Fuchi, Liu, Lizhe
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2023
Materias:
Physical Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10214196/
https://www.ncbi.nlm.nih.gov/pubmed/37186826
http://dx.doi.org/10.1073/pnas.2219661120
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author Huang, Peilin
Meng, Ming
Zhou, Gang
Wang, Peifang
Wei, Wenxian
Li, Hao
Huang, Rong
Liu, Fuchi
Liu, Lizhe
author_facet Huang, Peilin
Meng, Ming
Zhou, Gang
Wang, Peifang
Wei, Wenxian
Li, Hao
Huang, Rong
Liu, Fuchi
Liu, Lizhe
author_sort Huang, Peilin
collection PubMed
description The oxygen evolution reaction (OER) underpins many aspects of energy storage and conversion in modern industry and technology, but which still be suffering from the dilemma of sluggish reaction kinetics and poor electrochemical performance. Different from the viewpoint of nanostructuring, this work focuses on an intriguing dynamic orbital hybridization approach to renormalize the disordering spin configuration in porous noble-metal–free metal–organic frameworks (MOFs) to accelerate the spin-dependent reaction kinetics in OER. Herein, we propose an extraordinary super-exchange interaction to reconfigure the domain direction of spin nets at porous MOFs through temporarily bonding with dynamic magnetic ions in electrolytes under alternating electromagnetic field stimulation, in which the spin renormalization from disordering low-spin state to high-spin state facilitates rapid water dissociation and optimal carrier migration, leading to a spin-dependent reaction pathway. Therefore, the spin-renormalized MOFs demonstrate a mass activity of 2,095.1 A g(metal)(−1) at an overpotential of 0.33 V, which is about 5.9 time of pristine ones. Our findings provide a insight into reconfiguring spin-related catalysts with ordering domain directions to accelerate the oxygen reaction kinetics.
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spelling pubmed-102141962023-11-15 Dynamic orbital hybridization triggered spin-disorder renormalization via super-exchange interaction for oxygen evolution reaction Huang, Peilin Meng, Ming Zhou, Gang Wang, Peifang Wei, Wenxian Li, Hao Huang, Rong Liu, Fuchi Liu, Lizhe Proc Natl Acad Sci U S A Physical Sciences The oxygen evolution reaction (OER) underpins many aspects of energy storage and conversion in modern industry and technology, but which still be suffering from the dilemma of sluggish reaction kinetics and poor electrochemical performance. Different from the viewpoint of nanostructuring, this work focuses on an intriguing dynamic orbital hybridization approach to renormalize the disordering spin configuration in porous noble-metal–free metal–organic frameworks (MOFs) to accelerate the spin-dependent reaction kinetics in OER. Herein, we propose an extraordinary super-exchange interaction to reconfigure the domain direction of spin nets at porous MOFs through temporarily bonding with dynamic magnetic ions in electrolytes under alternating electromagnetic field stimulation, in which the spin renormalization from disordering low-spin state to high-spin state facilitates rapid water dissociation and optimal carrier migration, leading to a spin-dependent reaction pathway. Therefore, the spin-renormalized MOFs demonstrate a mass activity of 2,095.1 A g(metal)(−1) at an overpotential of 0.33 V, which is about 5.9 time of pristine ones. Our findings provide a insight into reconfiguring spin-related catalysts with ordering domain directions to accelerate the oxygen reaction kinetics. National Academy of Sciences 2023-05-15 2023-05-23 /pmc/articles/PMC10214196/ /pubmed/37186826 http://dx.doi.org/10.1073/pnas.2219661120 Text en Copyright © 2023 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/This article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Physical Sciences
Huang, Peilin
Meng, Ming
Zhou, Gang
Wang, Peifang
Wei, Wenxian
Li, Hao
Huang, Rong
Liu, Fuchi
Liu, Lizhe
Dynamic orbital hybridization triggered spin-disorder renormalization via super-exchange interaction for oxygen evolution reaction
title Dynamic orbital hybridization triggered spin-disorder renormalization via super-exchange interaction for oxygen evolution reaction
title_full Dynamic orbital hybridization triggered spin-disorder renormalization via super-exchange interaction for oxygen evolution reaction
title_fullStr Dynamic orbital hybridization triggered spin-disorder renormalization via super-exchange interaction for oxygen evolution reaction
title_full_unstemmed Dynamic orbital hybridization triggered spin-disorder renormalization via super-exchange interaction for oxygen evolution reaction
title_short Dynamic orbital hybridization triggered spin-disorder renormalization via super-exchange interaction for oxygen evolution reaction
title_sort dynamic orbital hybridization triggered spin-disorder renormalization via super-exchange interaction for oxygen evolution reaction
topic Physical Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10214196/
https://www.ncbi.nlm.nih.gov/pubmed/37186826
http://dx.doi.org/10.1073/pnas.2219661120
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