化工进展 ›› 2024, Vol. 43 ›› Issue (6): 3174-3186.DOI: 10.16085/j.issn.1000-6613.2023-0857

• 材料科学与技术 • 上一篇    

单原子Ni、N共掺杂碳材料基催化剂电还原CO2制CO研究进展

蔚德磊(), 韩康顺, 陈瑶, 刘祥春(), 崔平()   

  1. 安徽工业大学化学与化工学院,安徽省煤洁净转化与高值化利用重点实验室,安徽 马鞍山 243032
  • 收稿日期:2023-05-25 修回日期:2023-07-11 出版日期:2024-06-15 发布日期:2024-07-02
  • 通讯作者: 刘祥春,崔平
  • 作者简介:蔚德磊(1987—),男,博士研究生,研究方向为CO2电化学还原。E-mail:yudelei@ahut.edu.cn
  • 基金资助:
    国家自然科学基金(22278001);煤清洁转化与高值化利用安徽省重点实验室开放课题(CHV21-03)

Recent advances in electroreduction of CO2 to CO using single atom Ni, N co-doped carbon-material based catalysts

YU Delei(), HAN Kangshun, CHEN Yao, LIU Xiangchun(), CUI Ping()   

  1. Anhui Province Key Laboratory of Coal Clean Conversion and High Valued Utilization, School of Chemistry and Chemical Engineering, Anhui University of Technology, Ma’anshan 243032, Anhui, China
  • Received:2023-05-25 Revised:2023-07-11 Online:2024-06-15 Published:2024-07-02
  • Contact: LIU Xiangchun, CUI Ping

摘要:

单原子Ni、N共掺杂碳材料基催化剂(Ni-N-C)电催化CO2制CO,因其在较大的电流密度和较大的过电势下仍具有超高的CO选择性,引起了广泛关注。本文综述了Ni-N-C电催化CO2制CO研究进展,包括氮掺杂碳材料基催化剂和Ni-N-C电催化CO2制CO。总结了氮掺杂碳材料基催化剂中不同形态N的催化活性,目前为止,N在该类催化剂电化学还原CO2中的确切作用没有达成共识。此外,还总结了Ni-N-C的催化性能、催化机理及催化性能改性方法,探讨了与Ni配位的N原子和缺陷位对催化活性的影响规律,分析了各类碳载体的优缺点。Ni-N-C电化学还原CO2制CO研究已取得一定的进展,如电流密度可达工业级要求,但是其实现大规模工业化应用还需解决一些关键问题,如开发高活性和高稳定性Ni-N-C的定向制备技术;研发制备简易温和、成本低廉、具有抗腐蚀性、耐高温的先进碳载体材料。

关键词: 单原子Ni, 富氮碳材料, 电催化, CO2制CO

Abstract:

Study of single-atom Ni and N co-doped carbon-material based catalysts (Ni-N-C) for CO2 electrochemical reduction (CO2ER) to CO began in the past decade. It has received a lot of attentions because it possessed ultra-high CO selectivity even under high current density and high overpotential. This article reviewed recent advances in Ni-N-C for CO2ER to CO, including nitrogen doped carbon-material based catalysts and Ni-N-C for CO2ER to CO. The catalytic activities of different forms of N in carbon-material based catalysts were summarized, and so far, the exact role of N in carbon-material based catalysts for CO2ER was controversial. Moreover, the catalytic performance, catalytic mechanism and catalytic performance modification for Ni-N-C were also summarized. The effects of N atoms and defect sites coordinated with Ni on catalytic activity, and the advantages and disadvantages of various carbon-carriers were analyzed. Although research on CO2ER to CO using Ni-N-C has made certain progress, such as the current density reaching industrial grade requirements, some key issues still needed to be solved to achieve its large-scale industrial applications, such as developing directional preparation technologies for high activity and high stability Ni-N-C and developing advanced carbon-material carriers, which were simple and mild preparation, low cost, corrosion-resistant high-temperature resistant.

Key words: single atom Ni, nitrogen rich carbon materials, electrocatalytic, CO2 to CO

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