Author
Listed:
- Hong Bin Yang
(Nanyang Technological University
Suzhou University of Science and Technology)
- Sung-Fu Hung
(National Taiwan University)
- Song Liu
(Nanyang Technological University
Chinese Academy of Sciences)
- Kaidi Yuan
(National University of Singapore)
- Shu Miao
(Chinese Academy of Sciences)
- Liping Zhang
(Nanyang Technological University)
- Xiang Huang
(Nanyang Technological University)
- Hsin-Yi Wang
(Nanyang Technological University)
- Weizheng Cai
(Nanyang Technological University)
- Rong Chen
(Nanyang Technological University)
- Jiajian Gao
(Nanyang Technological University)
- Xiaofeng Yang
(Chinese Academy of Sciences)
- Wei Chen
(National University of Singapore)
- Yanqiang Huang
(Chinese Academy of Sciences)
- Hao Ming Chen
(National Taiwan University)
- Chang Ming Li
(Suzhou University of Science and Technology)
- Tao Zhang
(Chinese Academy of Sciences)
- Bin Liu
(Nanyang Technological University)
Abstract
Electrochemical reduction of CO2 to chemical fuel offers a promising strategy for managing the global carbon balance, but presents challenges for chemistry due to the lack of effective electrocatalyst. Here we report atomically dispersed nickel on nitrogenated graphene as an efficient and durable electrocatalyst for CO2 reduction. Based on operando X-ray absorption and photoelectron spectroscopy measurements, the monovalent Ni(i) atomic center with a d9 electronic configuration was identified as the catalytically active site. The single-Ni-atom catalyst exhibits high intrinsic CO2 reduction activity, reaching a specific current of 350 A gcatalyst−1 and turnover frequency of 14,800 h−1 at a mild overpotential of 0.61 V for CO conversion with 97% Faradaic efficiency. The catalyst maintained 98% of its initial activity after 100 h of continuous reaction at CO formation current densities as high as 22 mA cm−2.
Suggested Citation
Hong Bin Yang & Sung-Fu Hung & Song Liu & Kaidi Yuan & Shu Miao & Liping Zhang & Xiang Huang & Hsin-Yi Wang & Weizheng Cai & Rong Chen & Jiajian Gao & Xiaofeng Yang & Wei Chen & Yanqiang Huang & Hao M, 2018.
"Atomically dispersed Ni(i) as the active site for electrochemical CO2 reduction,"
Nature Energy, Nature, vol. 3(2), pages 140-147, February.
Handle:
RePEc:nat:natene:v:3:y:2018:i:2:d:10.1038_s41560-017-0078-8
DOI: 10.1038/s41560-017-0078-8
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