化学学报 ›› 1998, Vol. 56 ›› Issue (9): 925-929. 上一篇    下一篇

研究论文

青蒿素及其衍生物电化学性质的研究Ⅱ: 青蒿素在 氯化血红素存在下的还原

陈扬;朱世民;陈洪渊   

  1. 南京大学化学系.南京(210008);配位化学国家重点实验室
  • 发布日期:1998-09-15

Study on the electrochemical behaviors of artemisinin (Qinghaosu) and its derivativesⅡ: Reduction mechanism of artemisinin in the presence of hemin

Chen Yang;Zhu Shimin;Chen Hongyuan   

  1. Nanjing Univ, Dept Chem.Nanjing(210008)
  • Published:1998-09-15

用电化学方法研究了青蒿素与氯化血红素之间的相互作用。青蒿素在玻璃碳电极上于-1.08V处发生一个2电子转移的不可逆还原。但是,即使在低至4.0×10^-^8mol/L氯化血红素存在下,青蒿素仍可被催化还原,阴极过电位降低了600mV。配合物EDTA-Fe(Ⅲ)具有类似氯化血红素的催化性质,它降低了QHS阴极过电位590mV。在这个体系中,青蒿素在碳电极上的还原是一个借助于氯化血红素催化的还原过程,氯化血红素的存在降低了青蒿素还原活化能,促进了青蒿素的分解。文中讨论了该反应的还原机理。

关键词: 青蒿素, 氯化血红素, 催化, 还原, 循环伏安法, EDTA, 铁离子, 其它基金

The interaction between artemisinin and hemin was investigated by electrochemical methods. Artemisinin was irreversibly reduced at -1. 08V via a two-electron transfer process at glassy carbon electrode. In the presence of hemin at concentration as low as 4.0×10^-^8mol/L, artemisinin can be reduced via the hemin-catalysis and its original cathodic peak at -1.08V completely disappeared. The cathodic overpotential of artemisinin is decreased by ca. 600mV. This process is verified by the fact that complex EDTA-Fe(Ⅲ) can also promote the artemisinin reduction with decreasing the cathodic overpotential of artemisinin for 590mV. These results show that the reduction of artemisinin at glassy carbon electrode is a catalytic process with the aid of hemin. Hemin can greatly decrease the cathodic activation energy of the reduction of artemisinin and promote the decomposition of artemisinin.

Key words: ARTEANNUIN, HEMIN, CATALYSIS, REDUCTION, CYCLOVOLTAMGRAPH, EDTA, IRON ION

中图分类号: