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没食子酸清除DPPH自由基的微量电化学滴定
引用本文:李晓芬,王炯,李桥丽,高云涛,张公信,周学进. 没食子酸清除DPPH自由基的微量电化学滴定[J]. 云南民族大学学报(自然科学版), 2012, 21(4): 243-248
作者姓名:李晓芬  王炯  李桥丽  高云涛  张公信  周学进
作者单位:云南民族大学民族药资源化学国家民委-教育部重点实验室,云南昆明,650500
基金项目:云南省创新团队项目,民族药资源化学国家民委-教育部重点实验室开放基金
摘    要:电化学研究表明,没食子酸在石墨电极上有一不可逆的氧化峰,峰电位为Epa=0.48 V,且在0.38 V(vs.SCE)处有一灵敏的差分脉冲伏安氧化峰,其峰电流与浓度具有良好的线性关系,ipa=2.408c+3.028,r=0.999 6.建立了没食子酸清除DPPH自由基的新型微量电化学滴定法,研究了没食子酸和DPPH自由基反应的化学计量关系,测得没食子酸和DPPH自由基反应的化学计量比为1∶3,该结果与光谱分析法相符,并对没食子酸清除DPPH自由基的电化学氧化机理进行了探讨.

关 键 词:没食子酸  DPPH自由基  电化学滴定  化学计量  电化学氧化机理

Micro-Electrochemical Titration Analysis of the Scavenging Effect of Gallic Acid on DPPH Free Radicals
LI Xiao-fen , WANG Jiong , LI Qiao-li , GAO Yun-tao , ZHANG Gong-xin , ZHOU Xue-jin. Micro-Electrochemical Titration Analysis of the Scavenging Effect of Gallic Acid on DPPH Free Radicals[J]. Journal of Yunnan Nationalities University:Natural Sciences Edition, 2012, 21(4): 243-248
Authors:LI Xiao-fen    WANG Jiong    LI Qiao-li    GAO Yun-tao    ZHANG Gong-xin    ZHOU Xue-jin
Affiliation:(Key Laboratory of Chemistry in Ethnic Medicinal Resources,State Ethnic Affairs Commission and Ministry of Education, Yunnan University of Nationalities,Kunming 650500,China)
Abstract:The electrochemical results indicated that gallic acid presented typical irreversible oxidation processes,and an irreversible oxidation peak was observed with the peak potentials of 0.48V(vs.SCE) on the graphite electrode.A sensitive differential pulse voltammetry anodic peak at Epa= 0.38V(vs.SCE) was also detected with a good linear relationship between the peak current and the concentration: ipa = 2.408 c+3.028,r=0.999 6.A novel micro-electrochemical titration method for evaluating the scavenging effect of gallic acid on DPPH free radicals was proposed,the stoichiometric relationship of gallic and DPPH was determined with a stoichiometric proportion of 1∶ 3(gallic to DPPH),which was coincident with the results of spectrophotometry.Electrochemical oxidation mechanism of the scavenging effect of gallic acid on DPPH free radicals was also investigated.
Keywords:gallic acid  DPPH free radical  electrochemical titration  stoichiometry  electrochemical oxidation mechanism
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