| Cu(II)氧化抗坏血酸的动力学和机理 |
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| 引用本文: | 许金. Cu(II)氧化抗坏血酸的动力学和机理[J]. 化学学报, 1989, 47(4): 313-318 |
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| 作者姓名: | 许金 |
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| 作者单位: | 北京医科大学药物理化学教研室 |
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| 摘 要: | 本文在总离子强度I=1.00mol.dm^-^3、[Cu^2^+]>>[H2A]、[H^+]>>[H2A]、无氧及无缓冲剂存在的条件下, 研究Cu(II)氧化抗坏血酸(H2A)的动力学和机理. 发现Cu(II)与H2A不发生配位反应, 但以Cl^-存在的情况下, 确有Cu(II)的H2A配合物生成, Cu(II)氧化H2A反应的速率方程为r={a+b[Cl^-]}[Cu^2^+]{[H+]+Ka}^-^2, 25℃时a和b值分别为4.08×10^-^4s^-^1和0.555dm^3.s^-^1.mol^-^1. Cu(II)氧化H2A反应的表观活化能为68.1KJ.mol^-^1. 根据动力学结果, 提出了反应机理, 并给出了配合物ClCuHA的结构形式.
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| 关 键 词: | 氧化 反应机理 反应动力学 铜 维生素C |
Kinetics and mechanism of the oxidation reaction of ascorbic acid by Cu(II) |
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| XU JIN. Kinetics and mechanism of the oxidation reaction of ascorbic acid by Cu(II)[J]. Acta Chimica Sinica, 1989, 47(4): 313-318 |
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| Authors: | XU JIN |
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| Abstract: | The title reaction of ascorbic acid (H2A) was studied at [Cu2+] >> [H2A] and [H+] >> [H2A]. The effect of chloride anion on the kinetics and mechanism has been examined at [H+] = 1.00 ?10-3 mol dm-3 and the chloride concentration up to 7.00 ?10-3 mol dm-3. The Arrhenius activation energy is 68.1 kJ mol-1. The stop-flow spectrum shows that no CuHA+ complex is formed in the system of Cu(II)-ascorbic acid, but the complex ClCuHA is formed in the presence of Cl-. |
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| Keywords: | OXIDATION REACTION MECHANISM REACTION KINETICS COPPER VITAMIN C |
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