精氨酸络合银的电位学研究

Marco Antonilli, Emilio Bottari, Maria Rosa Festa, Lorella Gentile
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引用次数: 8

摘要

精氨酸是参与生成一氧化氮的重要氨基酸,一氧化氮是一种血管舒张剂。对其作为阳离子配体的性质研究较少。而且它的质子化常数,即使是几个研究的对象,也不能准确地确定。本文用氢电极对精氨酸的三质子化常数进行了电动势测量。在25℃,以1.00 mol dm-3 NaClO4为离子介质时,它们的对数k1 = 12.53±0.05;log k1 k2 = 21.36±0.03 log k3 = 2.20±0.07,在1.00 mol dm-3 NaCl条件下,log k1 = 12.35±0.05;Log k1 k2 = 21.18±0.03;Log k3 = 2.08±0.07。采用含银和玻璃电极的原电池研究了l -精氨酸作为配体对银(I)的行为。在25°C和1.00 mol dm-3 NaClO4中获得的实验数据,通过假设Ag(HL) (log β1,1,1 = 3.79±0.04)和Ag(HL)2 (log β1,2,2 = 7.36±0.03)的形成来解释本文的结果。
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Potentiometric Investigation of Silver (I) Complexation by Arginine
Arginine is an important amino acid involved in the production of NO, which is a vasodilatator. Its property as ligand towards cations was little studied. Also its protonation constants, even if subject of several studies, were not accurately determined. In this paper electromotive force measurements are performed by using a hydrogen electrode to accurately determine the three protonation constant of arginine. At 25°C and in 1.00 mol dm -3 NaClO 4 , as ionic medium, they are log K 1 =12.53 ± 0.05; log k 1 k 2 = 21.36 ± 0.03 log k 3 = 2.20 ±0.07, while in 1.00 mol dm -3 NaCI, the following values were obtained: log k 1 =12.35 ± 0.05; log k 1 k 2 = 21.18 ±0.03; log k 3 = 2,08 ±0.07. Galvanic cells involving silver and glass electrodes were employed to study the behaviour of L-arginine as ligand towards silver (I). The experimental data, obtained at 25°C and in 1.00 mol dm -3 NaClO 4, were explained by assuming the formation of the species Ag(HL) (log β 1,1,1 = 3.79 ± 0.04) and Ag(HL) 2 (log β 1,2,2 = 7.36 ± 0.03) The results of this paper will be used for future investigation.
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