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TR-ESR Investigation on Reaction of Vitamin C with Excited Triplet of 9,10-phenanthrenequinone in Reversed Micelle Solutions
Xin-sheng Xu*, Lei Shi, Yi Liu, Xue-han Ji, Zhi-feng Cui
Institute of Atomic and Molecular Physics, Anhui Normal University, Wuhu 241000, China
Abstract:
Time-resolved electron spin resonance has been used to study quenching reactions between the antioxidant Vitamin C (VC) and the triplet excited states of 9,10-phenanthrenequinone (PAQ) in ethylene glycol-water (EG-H2O) homogeneous and inhomogeneous reversed micelle solutions. Reversed micelle solutions were used to be the models of physiological environment of biological cell and tissue. In PAQ/EG-H2O homogeneous solution, the excited triplet of PAQ (3PAQ*) abstracts hydrogen atom from solvent EG. In PAQ/VC/EG-H2O solution, 3PAQ* abstracts hydrogen atom not only from solvent EG but also from VC. The quenching rate constant of 3PAQ* by VC is close to the diffusion-controlled value of 1.41×108 L/(mol·s). In hexadecyltrimethylammonium bromide (CTAB)/EG-H2O and aerosol OT (AOT)/EG-H2O reversed micelle solutions, 3PAQ* and VC react around the water-oil interface of the reversed micelle. Exit of 3PAQ* from the lipid phase slows down the quenching reaction. For Triton X-100 (TX-100)/EG-H2O reversed micelle solution, PAQ and VC coexist inside the hydrophilic polyethylene glycol core, and the quenching rate constant of 3PAQ* by VC is larger than those in AOT/EG-H2O and CTAB/EG-H2O reversed micelle solutions, even a little larger than that in EG-H2O homogeneous solution. The strong emissive chemically in-duced dynamic electron polarization of As- resulted from the effective TM spin polarization transfer in hydrogen abstraction of 3PAQ* from VC.
Key words:  9,10-phenanthrenequinone, Vitamin C, Time-resolved electron spin resonance, Reversed micelle
FundProject:
维生素C对菲醌三重激发态的淬灭机理及动力学研究
许新胜*, 史蕾, 刘毅, 季学韩, 崔执凤
安徽师范大学原子与分子物理研究所,芜湖241000
摘要:
用时间分辨电子自旋共振技术研究了乙二醇(EG)均相溶液和反胶束溶液中抗氧化剂维生素C(VC)对菲醌(PAQ)分子激发三重态3PAQ*的淬灭反应.利用反胶束模拟生物细胞和组织的生理环境.光解PAQ/EG-H2O均相溶液,3PAQ*与溶剂分子EG之间发生氢转移反应.当体系中加入VC后,3PAQ*不仅从EG上夺氢,还从VC上夺氢,VC对3PAQ*的淬灭速率常数为1.409×108 L/(mol·s), 反应受扩散控制. 在CTAB/EG-H2O和AOT/EG-H2O反胶束溶液中,3PAQ*和VC之间的夺氢反应发生在反胶束的水/油界面附近,3PAQ*扩散到油/水界面的过程降低了反应的速率.对于TX-100/EG-H2O反胶束溶液, 由于PAQ增溶于亲水的聚氧乙烯链中,VC对3PAQ*的淬灭速率常数比CTAB/EG-H2O和AOT/EG-H2O反胶束中的都大,甚至比EG-H2O均相溶液中的也略大.很强的VC负离子自由基As-的CIDEP信号来源于3PAQ*与VC之间发生抽氢反应过程中的三重态机理自旋极化转移
关键词:  菲醌,维生素C,时间分辨电子自旋共振,反胶束
DOI:10.1088/1674-0068/24/02/150-154
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