Difenoconazole solubility in acetonitrile/N,N-dimethylformamide/acetone + water and quantum chemistry study into inter/intra-molecular interactions

IF 2.2 3区 工程技术 Q3 CHEMISTRY, PHYSICAL Journal of Chemical Thermodynamics Pub Date : 2024-08-10 DOI:10.1016/j.jct.2024.107366
Chaobin Ren , Hongkun Zhao
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Abstract

The difenoconazole solubilities in acetonitrile/acetone/N,N-dimethylformamide (DMF) + water systems were acquired experimentally with the help of the isothermal shake-flask technique. Analysis of X-ray power diffraction revealed that difenoconazole did not exhibit any crystal transition as well as solvate formation. The solubility acquired here was accurately correlated, which yielded relative average deviations (RAD) of ≤4.99 % and a root-mean-square deviation of ≤20.59 × 10−5 through the Jouyban-Acree and modified van’t Hoff-Jouyban-Acree models Additionally, to explain the solubility behavior at a temperature of 298.15 K, this work examines the acetonitrile/acetone/DMF + water and the previously published methanol/ethanol/isopropanol/PG + water blends utilizing the extended Hildebrand solubility technique. The RAD levels remained below 6.88 %. The dipolarity-polarizability and the solubility parameter of blended solvents exert a substantial impact on the variability of difenoconazole solubility. The preferred solvation of difenoconazole at a temperature of 298.15 K was examined through the inverse Kirkwood-Buff integrals. The solvation parameters’ values of difenoconazole were positive in blends containing methanol, acetone, DMF, ethanol, isopropanol, and acetonitrile with moderate and rich compositions. This indicates that difenoconazole is preferentially solvated by them in above composition ranges. A shift from an enthalpy-driven mechanism to an entropy-driven one was revealed through an analysis of the thermodynamics of the entropy-enthalpy relationship in the dissolution of difenoconazole in blends. Furthermore, the mean local ionization energy, Hirshfeld surface as well as molecular surface electrostatic potential were employed to illustrate the microscopic electrostatic characteristics. The N and N groups in the five-membered ring of difenoconazole molecule are the primary sites for electrophilic attack. The weak contacts of difenoconazole-solvent were demonstrated with the help of a Hirshfeld partition analysis-based independent gradient model.

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二苯并唑在乙腈/N,N-二甲基甲酰胺/丙酮+水中的溶解度以及分子间/分子内相互作用的量子化学研究
利用等温摇瓶技术,通过实验获得了苯醚甲环唑在乙腈/丙酮/N,N-二甲基甲酰胺(DMF)+水体系中的溶解度。X 射线功率衍射分析表明,苯醚甲环唑没有出现任何晶体转变和溶解物形成。此外,为了解释在 298.15 K 时的溶解度行为,本研究利用扩展的希尔德布兰德溶解度技术对乙腈/丙酮/DMF + 水和之前发表的甲醇/乙醇/异丙醇/PG + 水混合物进行了研究。RAD 水平保持在 6.88 % 以下。混合溶剂的偶极性-极化性和溶解度参数对苯醚甲环唑溶解度的变化有很大影响。通过反柯克伍德-巴夫积分,研究了在 298.15 K 的温度下,地芬诺康唑的优先溶解度。在含有甲醇、丙酮、DMF、乙醇、异丙醇和乙腈的混合物中,双唑醇的溶解参数值分别为正值和负值。这表明在上述成分范围内,苯醚甲环唑优先被它们溶解。通过分析苯醚甲环唑在混合物中溶解的熵焓关系热力学,发现苯醚甲环唑从焓驱动机制转变为熵驱动机制。此外,还利用平均局部电离能、Hirshfeld 表面和分子表面静电位来说明微观静电特性。双唑分子五元环上的 N 和 N 基团是亲电攻击的主要部位。在基于 Hirshfeld 分配分析的独立梯度模型的帮助下,证明了双唑醇与溶剂的弱接触。
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来源期刊
Journal of Chemical Thermodynamics
Journal of Chemical Thermodynamics 工程技术-热力学
CiteScore
5.60
自引率
15.40%
发文量
199
审稿时长
79 days
期刊介绍: The Journal of Chemical Thermodynamics exists primarily for dissemination of significant new knowledge in experimental equilibrium thermodynamics and transport properties of chemical systems. The defining attributes of The Journal are the quality and relevance of the papers published. The Journal publishes work relating to gases, liquids, solids, polymers, mixtures, solutions and interfaces. Studies on systems with variability, such as biological or bio-based materials, gas hydrates, among others, will also be considered provided these are well characterized and reproducible where possible. Experimental methods should be described in sufficient detail to allow critical assessment of the accuracy claimed. Authors are encouraged to provide physical or chemical interpretations of the results. Articles can contain modelling sections providing representations of data or molecular insights into the properties or transformations studied. Theoretical papers on chemical thermodynamics using molecular theory or modelling are also considered. The Journal welcomes review articles in the field of chemical thermodynamics but prospective authors should first consult one of the Editors concerning the suitability of the proposed review. Contributions of a routine nature or reporting on uncharacterised materials are not accepted.
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