Nitrogen-doped nanocarbon as a metal-free catalyst for CO2 hydroboration

Tao Du; Peng Zhang; Guofeng Wang; Zhen Jiao; Jiancheng Zhou; Yuxiao Ding

doi:10.1039/D4NR04225E

Nitrogen-doped nanocarbon as a metal-free catalyst for CO₂ hydroboration†

Tao Du,^abc Peng Zhang,*^b Guofeng Wang,

^b Zhen Jiao,

^a Jiancheng Zhou

^a and Yuxiao Ding

*^b

Author affiliations

* Corresponding authors

^a School of Chemistry and Chemical Engineering, Southeast University, Nanjing 211189, Jiangsu, Peoples R China

^b State Key Laboratory of Low Carbon Catalysis and Carbon Dioxide Utilization, Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences, Lanzhou 730000, Gansu, Peoples R China
E-mail: zhangpengz@licp.cas.cn, yuxiaoding@licp.cas.cn

^c Joint Research Inistitute Southeast University & Monash University, Suzhou 215123, Jiangsu, Peoples R China

Abstract

Designing heterogeneous metal-free catalysts for highly efficient transformation of CO₂ into valuable products is a dream goal and a long-standing challenge in thermal catalysis. Herein, N-doped nanocarbon catalysts, NOLCx, are synthesized and present an attractive ability to catalyse CO₂ hydroboration. N doping on the NOLCx surface mainly exists in the form of pyridinic N, pyrrolic N and graphitic N, where pyridinic N and pyrrolic N are the possible catalytic active sites. In situ IR was utilized to examine the catalytic mechanism and capture the reaction intermediate. These findings could promote the in-depth understanding of carbon surface chemistry and the rational design of heterogeneous metal-free nanocarbon catalysts for CO₂ thermal transformation.

This article is part of the themed collection: Nanoscale 2025 Emerging Investigators

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Article information

DOI: https://doi.org/10.1039/D4NR04225E
Article type: Paper
Submitted: 12 Oct 2024
Accepted: 23 Nov 2024
First published: 25 Nov 2024

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Nanoscale, 2025, Advance Article

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Nitrogen-doped nanocarbon as a metal-free catalyst for CO₂ hydroboration

T. Du, P. Zhang, G. Wang, Z. Jiao, J. Zhou and Y. Ding, Nanoscale, 2025, Advance Article , DOI: 10.1039/D4NR04225E

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