Speciation of Phytate Ion in Aqueous Solution. Trimethyltin(IV) Interactions in Self Medium†

Annali di chimica Pub Date : 2007-07-02 DOI:10.1002/adic.200790048

Francesco Crea, Pasquale Crea, Demetrio Milea, Nunziatina Porcino, Silvio Sammartano

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引用次数: 8

Abstract

In this paper the results of a potentiometric (ISE-[H⁺] glass electrode) investigation at t = 25 °C on the complexing ability of phytate towards trimethyltin(IV) (tmt) and on the acid-base properties of tmt at high metal concentration (0.050 and 0.075 mol L^-1) are reported. First we determined the hydrolytic constants of tmt in aqueous solution without further addition of background salt (self medium); in these experimental conditions we verified the formation of the following hydrolytic species: tmt(OH)⁰, tmt(OH)₂^- and the binuclear species (tmt)₂(OH)⁺. Successively, we studied the complex formation constants obtained from the interaction of phytate anion with tmt in the same experimental conditions of hydrolytic measurements; the speciation model obtained takes into account several polynuclear species (tmtH₅Phy^6-; tmt₂H₅Phy^5-; tmt₃H₄Phy^5-; tmt₃H₅Phy^4-; tmt₄H₆Phy^2-; tmt₅HPhy^6-). A comparison with literature data is reported too.

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植酸离子在水溶液中的形态。三甲基锡(IV)在自介质中的相互作用

本文报道了在t = 25°C条件下用电位法(ISE-[H+]玻璃电极)研究植酸盐与三甲基锡(tmt)的络合能力和tmt在高金属浓度(0.050和0.075 mol L-1)下的酸碱性质。首先，我们确定了在不添加背景盐(自介质)的情况下，tmt在水溶液中的水解常数;在这些实验条件下，我们证实了以下水解物种的形成:tmt(OH)0, tmt(OH)2-和双核物种(tmt)2(OH)+。随后，我们研究了在相同的水解测量实验条件下，植酸阴离子与tmt相互作用得到的络合物形成常数;得到的物种形成模型考虑了几种多核物种(tmtH5Phy6-;tmt2H5Phy5 -;tmt3H4Phy5 -;tmt3H5Phy4 -;tmt4H6Phy2 -;tmt5HPhy6 -)。并与文献资料进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Annali di chimica

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