Antioxidative mechanism and anisotropic charge transport properties of mangiferin: A theoretical study

Chun-yuan Hou, G. Chai, Haijun Li
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引用次数: 3

Abstract

A quantum mechanical approach has been used to investigate the antioxidative mechanism for scavenging •OOH and •OH radicals using mangiferin in solution phase. Mangiferin is also used as a potent applicant for organic semiconductor. The charge-transport properties in mangiferin have been studied based on the first-principle DFT combined with the Marcus-Hush theory. Density functional theory (DFT) calculations at the B3LYP/6-311+G(d,p) level were used to optimize mangiferin and its different forms. The lowest theoretical bond dissociation enthalpy (BDE) value for 7-OH site of mangiferin in water, indicates that 7-OH group is important in the antioxidant activity. The relative values of enthalpies also show that oxidation of mangiferin by •OOH and •OH radical is an exothermic process. The predicted maximum electron mobility value of mangiferin is 0.148 cm2 V−1 s−1, which appears at the orientation angle near 49◦/311◦ of conducting channel on the reference planes ab. Theoretical investigation of natural semiconductors is helpful for designing higher performance electronic materials used in biochemical and industrial field to replace expensive and rare organic materials. PACS: 34.70.+e; 42.70.Nq
芒果苷的抗氧化机理及各向异性电荷输运特性的理论研究
采用量子力学方法研究了芒果苷在溶液中清除•OOH和•OH自由基的抗氧化机制。芒果苷也被用作有机半导体的有效应用。基于第一性原理DFT结合Marcus-Hush理论研究了芒果苷中的电荷输运性质。采用B3LYP/6-311+G(d,p)水平的密度泛函理论(DFT)对芒果苷及其不同形态进行了优化。芒果苷在水中7-OH位点的理论键解焓(BDE)最低,说明7-OH对芒果苷的抗氧化活性起重要作用。相对焓值也表明•OOH和•OH自由基对芒果苷的氧化是一个放热过程。预测了锰铁苷的最大电子迁移率值为0.148 cm2 V−1 s−1,出现在参考平面ab上导电通道49◦/311◦附近的取向角处。对天然半导体的理论研究有助于设计用于生化和工业领域的高性能电子材料,以取代昂贵和稀有的有机材料。pac: 34.70 + e;42.70.Nq
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来源期刊
Journal of Atomic and Molecular Sciences
Journal of Atomic and Molecular Sciences PHYSICS, ATOMIC, MOLECULAR & CHEMICAL-
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