氯化氢酒精溶液中离子对转化的热力学

V. Bulavin, I. V’unik, A. Kramarenko, A. Rusinov
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引用次数: 1

摘要

计算了接触离子对(CIP)和溶剂分离离子对(SSIP)在278.15 ~ 328.15 K下,即在化学研究和化工技术中最常用的非水溶剂中,正醇中甲基向正辛基的HCl电离过程中,接触离子对(CIP)和溶剂分离离子对(SSIP)解离成离子的热力学量,以及CIP转化为SSIP的热力学量。通过对不同溶剂中质子和氯离子形成HCl的过程和酸电离的分子机理的比较研究,建立了模型,强调了本研究的相关性,其中考虑了溶剂性质、氯化氢离子和温度对上述热力学量的影响。根据Ebeling方程计算CIP的解离常数,该方程考虑了离子对中离子间的短程排斥力和溶剂分子间的分散相互作用。用Schwartz方法计算了SSIPs的解离常数和热力学量,该方法评估了溶剂的物理和化学参数(除介电常数外,还有溶剂分子的自由体积,等温压缩率等),这些参数对离子对的性质有显著影响。通过对HCl在正醇中从甲基到正辛基电离阶段的一系列热力学数据的分析,得出了以下主要结论:(a)在甲醇中,离子对以sips为主,在乙醇中,CIPs和sps的浓度大致相同,在其他醇中,以CIPs为主;b)从甲醇转化为正辛醇时,cip的浓度随醇烷基自由基的增加而增加,分别从30%到95%;c)甲醇和乙醇中焓因子(ΔconvH°)与熵因子(-TΔconvS°)的比值保证了CIP自发转化为SSIP;d)醇中从正丙基到正辛基的CIP和SSIP解离成离子和CIP向SSIP转化的阶段值和符号ΔG°由熵项(-ТΔS°)决定,它导致离子对的反转化,即SSIP向CIP的转化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
THERMODYNAMICS OF ION PAIR CONVERSION IN ALCOHOL SOLUTIONS OF HYDROGEN CHLORIDE
The thermodynamic quantities of the dissociation stages of contact ion pairs (CIP) and solvent-separated ion pairs (SSIP) into ions, conversion of CIP into SSIP of the ionization process of HCl in n-alcohols from methyl to n-octyl at 278.15 – 328.15 K, i.e. in non-aqueous solvents that are most frequently used in chemical research and in chemical technology have been calculated. The proton and chloride ion forming HCl are modeled in a comparative study of the solvation process and the molecular mechanism of acid ionization in various solvents, which emphasizes the relevance of this study, in which the influence of the nature of the solvent, hydrogen chloride ions and temperature on the above thermodynamic quantities are considered. The calculation of the dissociation constants of CIP was carried out according to Ebeling’s equation, which takes into account the short-range repulsive forces between the ions in the ion pair and the dispersion interactions between the solvent molecules. The dissociation constants and thermodynamic quantities of SSIPs have been calculated by the Schwartz method, which evaluates the physical and chemical parameters of the solvent (besides the dielectric permittivity also the free volume of the solvent molecules, isothermal compressibility, etc.) that significantly affect the properties of ion pairs. The main conclusions drawn from our analysis of the array of thermodynamic data on the ionization stages of HCl in n-alcohols from methyl to n-octyl: (a) in methanol the predominant among the ion pairs are SSIPs, in ethanol the concentration of CIPs and SSIPs is approximately the same, and in other alcohols, the CIPs predominate; b) the concentration of CIPs increases with increasing alkyl radical of the alcohol when passing from methanol to n-octanol respectively from 30% to 95%; c) ratio of enthalpic (ΔconvH°) and entropic (–TΔconvS°) factors in methanol and ethanol ensures spontaneous conversion of CIP to SSIP; d) in alcohols from n-propyl to n-octyl values and sign ΔG° for the stages of dissociation of CIP and SSIP into ions and conversion of CIP to SSIP are determined by the entropic term (–ТΔS°), which leads to deconversion of ion pairs, i.e., the conversion of SSIPs into CIPs.
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