聚乙二醇与乙醇相互作用的超声研究:浓度和温度的影响

IF 1.9 Chemical Thermodynamics and Thermal Analysis Pub Date : 2025-06-01 Epub Date: 2025-01-27 DOI:10.1016/j.ctta.2025.100169
Niharika Das , Subhraraj Panda , Manoj Kumar Praharaj
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引用次数: 0

摘要

本研究利用超声波技术,在25°C、35°C、45°C和55°C的温度下,检测了浓度为5%、10%和15%的聚乙二醇(PEG)与乙醇之间的分子相互作用。利用实验参数“密度(ρ)、粘度(η)和超声速度(U)”评价了主要声学参数,包括声阻抗(Z)、绝热压缩率(β)、分子间自由长度(Lf)、弛豫时间和吉布斯自由能。分析的重点是了解温度和浓度变化如何影响peg -乙醇溶液的性质,特别是超声波速度、密度、粘度和声学参数。研究结果表明,较高的PEG浓度增强了分子间的相互作用,导致声阻抗增加,绝热压缩率和分子间自由长度降低。随着温度的升高,这些相互作用减弱,导致声阻抗降低,热力学性质改变,包括吉布斯自由能的增加。这项研究为peg -乙醇溶液的热力学和声学行为提供了有价值的见解,有助于更深入地了解其在不同条件下的分子动力学。
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Ultrasonic study of polyethylene glycol and ethanol interactions: impact of concentration and temperature
This study examines the molecular interactions between polyethylene glycol (PEG) at concentrations of 5%, 10%, and 15% with ethanol, utilizing ultrasonic techniques across temperatures of 25 °C, 35 °C, 45 °C, and 55 °C. Key acoustic parameters, including Acoustic Impedance (Z), Adiabatic Compressibility (β), Intermolecular Free Length (Lf), Relaxation Time, and Gibbs free energy, were evaluated using the experimental parameters “density (ρ) viscosity (η) and ultrasonic speed (U)”.The analysis focuses on understanding how temperature and concentration variations influence the properties, particularly ultrasonic velocity, density, viscosity, and acoustic parameters, in the PEG-ethanol solution. The findings indicate that higher PEG concentrations enhance molecular interactions, leading to increased acoustic Impedance and decreased adiabatic compressibility and intermolecular free length. As temperature rises, these interactions weaken, resulting in reduced acoustic impedance and altered thermodynamic properties, including an increase in Gibbs free energy. This research offers valuable insights into the thermodynamic and acoustic behavior of PEG-ethanol solutions, contributing to a deeper understanding of their molecular dynamics under varying conditions.
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