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Research Article

Graphene-anchored sodium single atoms: A highly active and stable catalyst for transesterification reaction

Song-Song Peng1,§Yao Nian2,§Xing-Ru Song1Xiang-Bin Shao1Chen Gu1Zhi-Wei Xing1Shi-Chao Qi1Peng Tan1You Han2,3Xiao-Qin Liu1Lin-Bing Sun1( )
State Key Laboratory of Materials-Oriented Chemical Engineering, Jiangsu National Synergetic Innovation Center for Advanced Materials (SICAM), College of Chemical Engineering, Nanjing Tech University, 30 South Puzhu Road, Nanjing 211816, China
School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, China
Haihe Laboratory of Sustainable Chemical Transformations, Tianjin 300192, China

§ Song-Song Peng and Yao Nian contributed equally to this work.

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Abstract

Solid strong base catalysts have received considerable attention in various organic reactions due to their facile separation, neglectable corrosion, and environmental friendliness. Although great progress has been made in the preparation of solid strong base catalysts, it is still challenging to avoid basic sites aggregation on support and active sites loss in reaction system. Here, we report a tandem redox strategy to prepare Na single atoms on graphene, producing a new kind of solid strong base catalyst (Na1/G). The base precursor NaNO3 was first reduced to Na2O by graphene (400 °C) and successively to single atoms Na anchored on the graphene vacancies (800 °C). Owing to the atomically dispersed of basicity, the resultant catalyst presents high activity toward the transesterification of methanol and ethylene carbonate to synthesize dimethyl carbonate (turnover frequency (TOF) value: 125.7 h−1), which is much better than the conventional counterpart Na2O/G and various reported solid strong bases (TOF: 1.0–90.1 h−1). Furthermore, thanks to the basicity anchored on graphene, the Na1/G catalyst shows excellent durability during cycling. This work may provide a new direction for the development of solid strong base catalysts.

Graphical Abstract

Graphene-anchored Na single atoms were synthesized by using the tandem redox strategy. The obtained catalyst exhibits strong basicity, high activity and enhanced stability in transesterification reaction, which is much superior to various solid base catalysts.

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Nano Research
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Cite this article:
Peng S-S, Nian Y, Song X-R, et al. Graphene-anchored sodium single atoms: A highly active and stable catalyst for transesterification reaction. Nano Research, 2024, 17(6): 4979-4985. https://doi.org/10.1007/s12274-024-6506-8
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Received: 25 October 2023
Revised: 09 January 2024
Accepted: 18 January 2024
Published: 07 February 2024
© Tsinghua University Press 2024