Estimating the Acoustical Parameters and Molecular Interactions of n-Butylammonium perchlorate in Mixed Organic Solvents in the Temperature Range 298-328 K

IF 1.4 Q3 CHEMISTRY, MULTIDISCIPLINARY

Physical Chemistry Research Pub Date : 2020-12-01 DOI:10.22036/PCR.2020.229730.1772

Vivek Pathania, Shrutila Sharma, S. K. Vermani, B. K. Vermani, Navya Grover

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引用次数: 1

Abstract

A study of the interactions in non-aqueous system containing n-Butylammonium perchlorate is presented. The densities and ultrasonic velocities of n-Butylammonium perchlorate in binary mixtures of Acetonitrile and Dimethylsulfoxide at the temperature range from 298 to 328K under atmospheric pressure were measured. The binary mixtures contain 20, 40, 60 and 80 mol% of Dimethylsulfoxide and the concentration range taken is from 0.03-0.28 mol kg-1. Anton Paar density and sound velocity meter was used for measurement of densities and ultrasonic velocities. The experimental data have been employed to calculate various acoustical parameters like isentropic compressibility (βs), intermolecular free length (Lf), relaxation strength (r), specific acoustic impedance (Z), relative association (RA), Wada’s constant (W), Rao’s constant (R), Vander walls constant (b), molar volume (Vm) and free volume (Vf). The results of the derived acoustical parameters have been discussed as a function of salt concentration, solvent composition and temperature. Overall results shows appreciable solute-solvent interactions in Dimethylsulphoxide rich region of the binary mixtures studied and the extent of these interactions have been found to be decreasing with rise in temperature.

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298-328K温度范围内高氯酸正丁基铵在混合有机溶剂中的声学参数和分子相互作用的估算

研究了高氯酸正丁基铵非水体系中的相互作用。在298~328K的温度范围内，测定了高氯酸正丁基铵在乙腈和二甲基亚砜二元混合物中的密度和超声速度。二元混合物含有20、40、60和80摩尔%的二甲基亚砜，浓度范围为0.03-0.28摩尔kg-1。Anton Paar密度和声速仪用于测量密度和超声速度。实验数据已用于计算各种声学参数，如等熵压缩性（βs）、分子间自由长度（Lf）、弛豫强度（r）、比声阻抗（Z）、相对缔合度（RA）、Wada常数（W）、Rao常数（r）、Vander walls常数（b）、摩尔体积（Vm）和自由体积（Vf）。导出的声学参数的结果已经作为盐浓度、溶剂组成和温度的函数进行了讨论。总体结果表明，在所研究的二元混合物的富含二甲基亚砜的区域中，有明显的溶质-溶剂相互作用，并且发现这些相互作用的程度随着温度的升高而降低。

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来源期刊

Physical Chemistry Research CHEMISTRY, MULTIDISCIPLINARY-

CiteScore

2.70

自引率

8.30%

发文量

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