Regulation of Coordination Number over Single Co Sites: Triggering the Efficient Electroreduction of CO2

Xiaoqian Wang; Zhao Chen; Xuyan Zhao; Tao Yao; Wenxing Chen; Rui You; Changming Zhao; Geng Wu; Jing Wang; Weixin Huang; Jinlong Yang; Xun Hong; Shiqiang Wei; Yuen Wu; Yadong Li

doi:10.1002/anie.201712451

Regulation of Coordination Number over Single Co Sites: Triggering the Efficient Electroreduction of CO₂

Xiaoqian Wang, Zhao Chen, Xuyan Zhao, Tao Yao, Wenxing Chen, Rui You, Changming Zhao, Geng Wu, Jing Wang, Weixin Huang, Jinlong Yang, Xun Hong, Shiqiang Wei, Yuen Wu^*, Yadong Li

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1011 Citations (Scopus)

Abstract

The design of active, selective, and stable CO₂ reduction electrocatalysts is still challenging. A series of atomically dispersed Co catalysts with different nitrogen coordination numbers were prepared and their CO₂ electroreduction catalytic performance was explored. The best catalyst, atomically dispersed Co with two-coordinate nitrogen atoms, achieves both high selectivity and superior activity with 94 % CO formation Faradaic efficiency and a current density of 18.1 mA cm⁻² at an overpotential of 520 mV. The CO formation turnover frequency reaches a record value of 18 200 h⁻¹, surpassing most reported metal-based catalysts under comparable conditions. Our experimental and theoretical results demonstrate that lower a coordination number facilitates activation of CO₂ to the CO₂^.− intermediate and hence enhances CO₂ electroreduction activity.

Original language	English
Pages (from-to)	1944-1948
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	57
Issue number	7
DOIs	https://doi.org/10.1002/anie.201712451
Publication status	Published - 12 Feb 2018
Externally published	Yes

Keywords

CO reduction
electrocatalysis
metal single sites
metal–organic frameworks
renewable energy

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1002/anie.201712451

Cite this

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title = "Regulation of Coordination Number over Single Co Sites: Triggering the Efficient Electroreduction of CO2",

abstract = "The design of active, selective, and stable CO2 reduction electrocatalysts is still challenging. A series of atomically dispersed Co catalysts with different nitrogen coordination numbers were prepared and their CO2 electroreduction catalytic performance was explored. The best catalyst, atomically dispersed Co with two-coordinate nitrogen atoms, achieves both high selectivity and superior activity with 94 % CO formation Faradaic efficiency and a current density of 18.1 mA cm−2 at an overpotential of 520 mV. The CO formation turnover frequency reaches a record value of 18 200 h−1, surpassing most reported metal-based catalysts under comparable conditions. Our experimental and theoretical results demonstrate that lower a coordination number facilitates activation of CO2 to the CO2.− intermediate and hence enhances CO2 electroreduction activity.",

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T1 - Regulation of Coordination Number over Single Co Sites

T2 - Triggering the Efficient Electroreduction of CO2

AU - Wang, Xiaoqian

AU - Chen, Zhao

AU - Zhao, Xuyan

AU - Yao, Tao

AU - Chen, Wenxing

AU - You, Rui

AU - Zhao, Changming

AU - Wu, Geng

AU - Wang, Jing

AU - Huang, Weixin

AU - Yang, Jinlong

AU - Hong, Xun

AU - Wei, Shiqiang

AU - Wu, Yuen

AU - Li, Yadong

PY - 2018/2/12

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N2 - The design of active, selective, and stable CO2 reduction electrocatalysts is still challenging. A series of atomically dispersed Co catalysts with different nitrogen coordination numbers were prepared and their CO2 electroreduction catalytic performance was explored. The best catalyst, atomically dispersed Co with two-coordinate nitrogen atoms, achieves both high selectivity and superior activity with 94 % CO formation Faradaic efficiency and a current density of 18.1 mA cm−2 at an overpotential of 520 mV. The CO formation turnover frequency reaches a record value of 18 200 h−1, surpassing most reported metal-based catalysts under comparable conditions. Our experimental and theoretical results demonstrate that lower a coordination number facilitates activation of CO2 to the CO2.− intermediate and hence enhances CO2 electroreduction activity.

AB - The design of active, selective, and stable CO2 reduction electrocatalysts is still challenging. A series of atomically dispersed Co catalysts with different nitrogen coordination numbers were prepared and their CO2 electroreduction catalytic performance was explored. The best catalyst, atomically dispersed Co with two-coordinate nitrogen atoms, achieves both high selectivity and superior activity with 94 % CO formation Faradaic efficiency and a current density of 18.1 mA cm−2 at an overpotential of 520 mV. The CO formation turnover frequency reaches a record value of 18 200 h−1, surpassing most reported metal-based catalysts under comparable conditions. Our experimental and theoretical results demonstrate that lower a coordination number facilitates activation of CO2 to the CO2.− intermediate and hence enhances CO2 electroreduction activity.

KW - CO reduction

KW - electrocatalysis

KW - metal single sites

KW - metal–organic frameworks

KW - renewable energy

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