Inductive Effect on Single-Atom Sites

Chang Xin Zhao; Xinyan Liu; Jia Ning Liu; Juan Wang; Xin Wan; Xi Yao Li; Cheng Tang; Changda Wang; Li Song; Jianglan Shui; Hong Jie Peng; Bo Quan Li; Qiang Zhang

doi:10.1021/jacs.3c09190

Inductive Effect on Single-Atom Sites

Chang Xin Zhao, Xinyan Liu^*, Jia Ning Liu, Juan Wang, Xin Wan, Xi Yao Li, Cheng Tang, Changda Wang, Li Song, Jianglan Shui, Hong Jie Peng, Bo Quan Li^*, Qiang Zhang^*

^*此作品的通讯作者

前沿交叉科学研究院

科研成果: 期刊稿件 › 文章 › 同行评审

17 引用（Scopus）

摘要

Single-atom catalysts exhibit promising electrocatalytic activity, a trait that can be further enhanced through the introduction of heteroatom doping within the carbon skeleton. Nonetheless, the intricate relationship between the doping positions and activity remains incompletely elucidated. This contribution sheds light on an inductive effect of single-atom sites, showcasing that the activity of the oxygen reduction reaction (ORR) can be augmented by reducing the spatial gap between the doped heteroatom and the single-atom sites. Drawing inspiration from this inductive effect, we propose a synthesis strategy involving ligand modification aimed at precisely adjusting the distance between dopants and single-atom sites. This precise synthesis leads to optimized electrocatalytic activity for the ORR. The resultant electrocatalyst, characterized by Fe-N₃P₁ single-atom sites, demonstrates remarkable ORR activity, thus exhibiting great potential in zinc-air batteries and fuel cells.

源语言	英语
页（从-至）	27531-27538
页数	8
期刊	Journal of the American Chemical Society
卷	145
期	50
DOI	https://doi.org/10.1021/jacs.3c09190
出版状态	已出版 - 20 12月 2023

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title = "Inductive Effect on Single-Atom Sites",

abstract = "Single-atom catalysts exhibit promising electrocatalytic activity, a trait that can be further enhanced through the introduction of heteroatom doping within the carbon skeleton. Nonetheless, the intricate relationship between the doping positions and activity remains incompletely elucidated. This contribution sheds light on an inductive effect of single-atom sites, showcasing that the activity of the oxygen reduction reaction (ORR) can be augmented by reducing the spatial gap between the doped heteroatom and the single-atom sites. Drawing inspiration from this inductive effect, we propose a synthesis strategy involving ligand modification aimed at precisely adjusting the distance between dopants and single-atom sites. This precise synthesis leads to optimized electrocatalytic activity for the ORR. The resultant electrocatalyst, characterized by Fe-N3P1 single-atom sites, demonstrates remarkable ORR activity, thus exhibiting great potential in zinc-air batteries and fuel cells.",

author = "Zhao, {Chang Xin} and Xinyan Liu and Liu, {Jia Ning} and Juan Wang and Xin Wan and Li, {Xi Yao} and Cheng Tang and Changda Wang and Li Song and Jianglan Shui and Peng, {Hong Jie} and Li, {Bo Quan} and Qiang Zhang",

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AU - Zhao, Chang Xin

AU - Liu, Xinyan

AU - Liu, Jia Ning

AU - Wang, Juan

AU - Wan, Xin

AU - Li, Xi Yao

AU - Tang, Cheng

AU - Wang, Changda

AU - Song, Li

AU - Shui, Jianglan

AU - Peng, Hong Jie

AU - Li, Bo Quan

AU - Zhang, Qiang

PY - 2023/12/20

Y1 - 2023/12/20

N2 - Single-atom catalysts exhibit promising electrocatalytic activity, a trait that can be further enhanced through the introduction of heteroatom doping within the carbon skeleton. Nonetheless, the intricate relationship between the doping positions and activity remains incompletely elucidated. This contribution sheds light on an inductive effect of single-atom sites, showcasing that the activity of the oxygen reduction reaction (ORR) can be augmented by reducing the spatial gap between the doped heteroatom and the single-atom sites. Drawing inspiration from this inductive effect, we propose a synthesis strategy involving ligand modification aimed at precisely adjusting the distance between dopants and single-atom sites. This precise synthesis leads to optimized electrocatalytic activity for the ORR. The resultant electrocatalyst, characterized by Fe-N3P1 single-atom sites, demonstrates remarkable ORR activity, thus exhibiting great potential in zinc-air batteries and fuel cells.

AB - Single-atom catalysts exhibit promising electrocatalytic activity, a trait that can be further enhanced through the introduction of heteroatom doping within the carbon skeleton. Nonetheless, the intricate relationship between the doping positions and activity remains incompletely elucidated. This contribution sheds light on an inductive effect of single-atom sites, showcasing that the activity of the oxygen reduction reaction (ORR) can be augmented by reducing the spatial gap between the doped heteroatom and the single-atom sites. Drawing inspiration from this inductive effect, we propose a synthesis strategy involving ligand modification aimed at precisely adjusting the distance between dopants and single-atom sites. This precise synthesis leads to optimized electrocatalytic activity for the ORR. The resultant electrocatalyst, characterized by Fe-N3P1 single-atom sites, demonstrates remarkable ORR activity, thus exhibiting great potential in zinc-air batteries and fuel cells.

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JO - Journal of the American Chemical Society

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Inductive Effect on Single-Atom Sites

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