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Citation: Wei Zheyu, Chang Yalin, Yu Han, Han Sheng, Wei Yongge. Application of Anderson Type Heteropoly Acids as Catalysts in Organic Synthesis[J]. Acta Chimica Sinica, ;2020, 78(8): 725-732. doi: 10.6023/A20050187 shu

Application of Anderson Type Heteropoly Acids as Catalysts in Organic Synthesis

  • a.

    College of Chemistry and Environmental Engineering, Shanghai Institute of Technology, Shanghai 201418

  • b.

    Department of Chemistry, Tsinghua University, Beijing 100084

  • Corresponding author: Yu Han, hanyu0220@tsinghua.edu.cn Han Sheng, hansheng654321@sina.com Wei Yongge, yonggewei@tsinghua.edu.cn
  • Received Date: 26 May 2020
    Available Online: 29 June 2020

    Fund Project: the National Natural Science Foundation of China 21971134the National Natural Science Foundation of China 21631007Project supported by the National Natural Science Foundation of China (Nos. 21971134, 21631007, 21225103)the National Natural Science Foundation of China 21225103

Figures(11)

  • Anderson type heteropoly acids, also known as Anderson type polyoxometalates, are a kind of important structures in polyoxometalates. Their general structural formula can be expressed as [XM6O24]n, in which the core heteroatom X can almost be replaced by almost any metal or nonmetal element in the periodic table. Due to unique structure easy to be modified with organic ligands and designability, as well as their potential applications in materials, catalysis and medicines, Anderson type heteropoly acids have been widely concerned by researchers. In recent years, the application of Anderson type heteropoly acids in organic synthesis has gradually shown great significance for the study of green catalytic process. In this paper, the catalytic application of Anderson type heteropoly acids in organic synthesis has been reviewed and summarized according to the structure classification of Anderson type polyoxometalates. This will be helpful for the researchers to further study the catalytic application of Anderson heteropoly acids and provides new ideas for the research of green catalysis.
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