Коливальні спектри та комп’ютерне моделювання амілацетату: MEP, AIM, RDG, NCI, ELF та LOL методи аналізу

Коливальні спектри та комп’ютерне моделювання амілацетату: MEP, AIM, RDG, NCI, ELF та LOL методи аналізу

This work is focused on biologically active neat amyl acetate and its solutions in ethanol/heptane. According to the experimental results, when the concentration of amyl acetate in the amyl acetate-ethanol solution decreases, the additional band appears on the low-frequency side. The primary reason...

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Bibliographic Details
Date:2024
Main Authors: Jumabaev, A., Hushvaktov, H., Absanov, A., Khudaykulov, B., Ernazarov, Z., Bulavin, L.
Format: Article
Language:English
Ukrainian
Published: Publishing house "Academperiodika" 2024
Subjects:
раманiвська спектроскопiя
квантово-хiмiчнi розрахунки
теорiя функцiонала густини
водневий зв’язок
молекулярний електростатичний потенцiал
функцiя локалiзацiї електронiв
локалiзований орбiтальний локатор
RDG дiаграма
розподiл заряду за Маллiкеном
амiлацетат
етанол
гептан
Online Access:https://ujp.bitp.kiev.ua/index.php/ujp/article/view/2023381
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Journal Title:Ukrainian Journal of Physics

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Ukrainian Journal of Physics
Description
Summary:This work is focused on biologically active neat amyl acetate and its solutions in ethanol/heptane. According to the experimental results, when the concentration of amyl acetate in the amyl acetate-ethanol solution decreases, the additional band appears on the low-frequency side. The primary reason for the formation of such additional band is the intermolecular hydrogen bonding between amyl acetate and ethanol. In the amyl acetate-heptane solution, as the concentration of amyl acetate in the solution decreases, the band corresponding to the C=O stretching vibrations shifted to a higher frequency. This is explained by the fact that heptane breaks intermolecular interactions in solution, resulting in a simpler spectral band corresponding to the C=O stretching vibrations. Calculations are also used to study interactions in amyl acetateethanol complexes and their spectral manifestations. When the complex formation energies are calculated, this energy increases with the number of molecules, but the average hydrogen bond energy per one bond remains unchanged. The density functional theory (DFT) method is used to analyze molecular structural parameters: Mulliken atomic charge distribution; thermodynamic parameters; molecular electrostatic potential (MEP) surface; atoms in molecules (AIM) analysis; quantum chemical parameters such as reduced density gradient (RDG) and noncovalent interaction (NCI) analysis; electron localization functions (ELF) analysis; and localized orbital locator (LOL) analysis.

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