用有机薄膜研究抗hiv化合物的伏安法

IF 2.3 Q3 ELECTROCHEMISTRY International journal of electrochemistry Pub Date : 2013-09-24 DOI:10.1155/2013/902872
A. Nassi, Thiery Christophe Ebelle, J. Manga, Jules-Blaise Mabou Leuna, J. D. Dazie, E. Ngameni
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引用次数: 0

摘要

循环伏安法和方波伏安法研究了抗hiv药物Guttiferone A在液-液界面上的电化学行为。所述有机薄膜由含有氧化还原探针的有机溶剂形成。Guttiferone A,二苯甲酮(BP)与适当的电解质。结果表明,由于三种互变异构形式的氧化还原转化导致质子在位置4的羟基和位置2和10的羰基之间迁移,BP具有三个还原系统。质子从水溶液到有机相的转移是BP氧化还原转化为有机膜的关键。所得伏安图受水相pH值的影响很大。电化学机理为2e−/2H
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Voltammetry Study of an Anti-HIV Compound by means of a Thin Organic Membrane
Cyclic and square wave voltammetries have been used to study electrochemical behaviour of an anti-HIV agent (Guttiferone A) at the liquid-liquid interface. The thin organic membrane is formed by an organic solvent containing redox probe. Guttiferone A, a benzophenone (BP) with appropriate electrolyte. It is demonstrated that BP possesses three reduction systems due to the redox transformation of the three tautomeric forms that lead to the migration of proton between the hydroxyl group in position 4 and the carbonyl group in positions 2 and 10. The transfer of proton from the aqueous solution to the organic phase is crucial for the redox transformation of BP into the organic membrane. The voltammograms obtained are strongly influenced by the pH of the aqueous phase. The electrochemical mechanism consists of 2e−/2H
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