Hollow N-Doped Carbon Spheres with Isolated Cobalt Single Atomic Sites: Superior Electrocatalysts for Oxygen Reduction

Yunhu Han; Yang Gang Wang; Wenxing Chen; Ruirui Xu; Lirong Zheng; Jian Zhang; Jun Luo; Rong An Shen; Youqi Zhu; Weng Chon Cheong; Chen Chen; Qing Peng; Dingsheng Wang; Yadong Li

doi:10.1021/jacs.7b10194

Hollow N-Doped Carbon Spheres with Isolated Cobalt Single Atomic Sites: Superior Electrocatalysts for Oxygen Reduction

Yunhu Han
, Yang Gang Wang
, Wenxing Chen
, Ruirui Xu
, Lirong Zheng
, Jian Zhang
, Jun Luo
, Rong An Shen
, Youqi Zhu
, Weng Chon Cheong
, Chen Chen
, Qing Peng
, Dingsheng Wang^*
, Yadong Li

^*Corresponding author for this work

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

639 Citations (Scopus)

Abstract

The search for a low-cost, ultrastable, and highly efficient non-precious metal catalyst substitute for Pt in the oxygen reduction reaction (ORR) is extremely urgent, especially in acidic media. Herein, we develop a template-assisted pyrolysis (TAP) method to obtain a unique Co catalyst with isolated single atomic sites anchored on hollow N-doped carbon spheres (ISAS-Co/HNCS). Both the single sites and the hollow substrate endow the catalyst with excellent ORR performance. The half-wave potential in acidic media approaches that of Pt/C. Experiments and density functional theory have verified that isolated Co sites are the source for the high ORR activity because they significantly increase the hydrogenation of OH∗ species. This TAP method is also demonstrated to be effective in preparing a series of ISAS-M/HNCS, which provides opportunities for discovering new catalysts.

Original language	English
Pages (from-to)	17269-17272
Number of pages	4
Journal	Journal of the American Chemical Society
Volume	139
Issue number	48
DOIs	https://doi.org/10.1021/jacs.7b10194
Publication status	Published - 6 Dec 2017
Externally published	Yes

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Han, Y., Wang, Y. G., Chen, W., Xu, R., Zheng, L., Zhang, J., Luo, J., Shen, R. A., Zhu, Y., Cheong, W. C., Chen, C., Peng, Q., Wang, D., & Li, Y. (2017). Hollow N-Doped Carbon Spheres with Isolated Cobalt Single Atomic Sites: Superior Electrocatalysts for Oxygen Reduction. Journal of the American Chemical Society, 139(48), 17269-17272. https://doi.org/10.1021/jacs.7b10194

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title = "Hollow N-Doped Carbon Spheres with Isolated Cobalt Single Atomic Sites: Superior Electrocatalysts for Oxygen Reduction",

abstract = "The search for a low-cost, ultrastable, and highly efficient non-precious metal catalyst substitute for Pt in the oxygen reduction reaction (ORR) is extremely urgent, especially in acidic media. Herein, we develop a template-assisted pyrolysis (TAP) method to obtain a unique Co catalyst with isolated single atomic sites anchored on hollow N-doped carbon spheres (ISAS-Co/HNCS). Both the single sites and the hollow substrate endow the catalyst with excellent ORR performance. The half-wave potential in acidic media approaches that of Pt/C. Experiments and density functional theory have verified that isolated Co sites are the source for the high ORR activity because they significantly increase the hydrogenation of OH∗ species. This TAP method is also demonstrated to be effective in preparing a series of ISAS-M/HNCS, which provides opportunities for discovering new catalysts.",

author = "Yunhu Han and Wang, \{Yang Gang\} and Wenxing Chen and Ruirui Xu and Lirong Zheng and Jian Zhang and Jun Luo and Shen, \{Rong An\} and Youqi Zhu and Cheong, \{Weng Chon\} and Chen Chen and Qing Peng and Dingsheng Wang and Yadong Li",

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doi = "10.1021/jacs.7b10194",

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T1 - Hollow N-Doped Carbon Spheres with Isolated Cobalt Single Atomic Sites

T2 - Superior Electrocatalysts for Oxygen Reduction

AU - Han, Yunhu

AU - Wang, Yang Gang

AU - Chen, Wenxing

AU - Xu, Ruirui

AU - Zheng, Lirong

AU - Zhang, Jian

AU - Luo, Jun

AU - Shen, Rong An

AU - Zhu, Youqi

AU - Cheong, Weng Chon

AU - Chen, Chen

AU - Peng, Qing

AU - Wang, Dingsheng

AU - Li, Yadong

PY - 2017/12/6

Y1 - 2017/12/6

N2 - The search for a low-cost, ultrastable, and highly efficient non-precious metal catalyst substitute for Pt in the oxygen reduction reaction (ORR) is extremely urgent, especially in acidic media. Herein, we develop a template-assisted pyrolysis (TAP) method to obtain a unique Co catalyst with isolated single atomic sites anchored on hollow N-doped carbon spheres (ISAS-Co/HNCS). Both the single sites and the hollow substrate endow the catalyst with excellent ORR performance. The half-wave potential in acidic media approaches that of Pt/C. Experiments and density functional theory have verified that isolated Co sites are the source for the high ORR activity because they significantly increase the hydrogenation of OH∗ species. This TAP method is also demonstrated to be effective in preparing a series of ISAS-M/HNCS, which provides opportunities for discovering new catalysts.

AB - The search for a low-cost, ultrastable, and highly efficient non-precious metal catalyst substitute for Pt in the oxygen reduction reaction (ORR) is extremely urgent, especially in acidic media. Herein, we develop a template-assisted pyrolysis (TAP) method to obtain a unique Co catalyst with isolated single atomic sites anchored on hollow N-doped carbon spheres (ISAS-Co/HNCS). Both the single sites and the hollow substrate endow the catalyst with excellent ORR performance. The half-wave potential in acidic media approaches that of Pt/C. Experiments and density functional theory have verified that isolated Co sites are the source for the high ORR activity because they significantly increase the hydrogenation of OH∗ species. This TAP method is also demonstrated to be effective in preparing a series of ISAS-M/HNCS, which provides opportunities for discovering new catalysts.

UR - https://www.scopus.com/pages/publications/85037531621

U2 - 10.1021/jacs.7b10194

DO - 10.1021/jacs.7b10194

M3 - Article

C2 - 29108411

AN - SCOPUS:85037531621

SN - 0002-7863

VL - 139

SP - 17269

EP - 17272

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 48

ER -

Hollow N-Doped Carbon Spheres with Isolated Cobalt Single Atomic Sites: Superior Electrocatalysts for Oxygen Reduction

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