油凝胶三方晶体和碳氢链扭曲。理论和蒙特卡罗模拟

IF 1.9 4区 农林科学 Q3 CHEMISTRY, APPLIED
Joseph Cooney, Silvana Martini, Fernanda Peyronel, David Pink
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引用次数: 0

摘要

在温度 T = 300 K 的条件下,通过使用 Metropolis Monte Carlo 算法进行计算机模拟,对碳氢链结晶单层的分子结构进行了建模和研究。我们的目的是确定链是刚性延伸还是通过热形成的高切键扭曲,并将结果应用于理解对两种可能的油凝胶物(三蚁酸和硬脂酸)的观察。具体来说,我们的目的是了解它们观察到的结晶单层厚度是由于垂直于单层表面的高斯键碳氢链缩短所致,还是由于与表面成倾斜角的完全伸展的刚性链所致。结果表明,碳氢链的结晶不包含明显的高切键,因此所有分子都是刚性延伸的,从而解释了之前报告的实验数据。因此,TC 和 SA 二聚体分子以相对于甲基平面的倾斜角排列在结晶多层中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Oleogelation: Triacontane crystals and hydrocarbon chain twisting. Theory and Monte Carlo simulations

Oleogelation: Triacontane crystals and hydrocarbon chain twisting. Theory and Monte Carlo simulations

The molecular structure of a crystalline monolayer of hydrocarbon chains was modeled and studied via computer simulation using the Metropolis Monte Carlo algorithm at a temperature T = 300 K. The only interactions in this system occur through Lennard-Jones dispersion forces and short-range atom-atom repulsion. The intent was to establish whether the chains were either rigidly extended or twisted via the thermal formation of gauche bonds and apply the results to understand observations made on two possible oleogelators: triacontane and stearic acid. Specifically, we aimed to understand if their observed crystalline monolayer thicknesses are due to gauche-bond-shortened hydrocarbon chains oriented perpendicular to the monolayer surface, or to fully extended rigid chains oriented at a tilt angle with respect to the surface. The results showed that crystals of hydrocarbon chains did not include significant gauche bonds, so that all molecules were rigidly extended, thus explaining the experimental data previously reported. Accordingly, TC and SA dimer molecules are packed in crystalline multilayers with tilt angles in relation to the methyl group plane.

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来源期刊
CiteScore
4.10
自引率
5.00%
发文量
95
审稿时长
2.4 months
期刊介绍: The Journal of the American Oil Chemists’ Society (JAOCS) is an international peer-reviewed journal that publishes significant original scientific research and technological advances on fats, oils, oilseed proteins, and related materials through original research articles, invited reviews, short communications, and letters to the editor. We seek to publish reports that will significantly advance scientific understanding through hypothesis driven research, innovations, and important new information pertaining to analysis, properties, processing, products, and applications of these food and industrial resources. Breakthroughs in food science and technology, biotechnology (including genomics, biomechanisms, biocatalysis and bioprocessing), and industrial products and applications are particularly appropriate. JAOCS also considers reports on the lipid composition of new, unique, and traditional sources of lipids that definitively address a research hypothesis and advances scientific understanding. However, the genus and species of the source must be verified by appropriate means of classification. In addition, the GPS location of the harvested materials and seed or vegetative samples should be deposited in an accredited germplasm repository. Compositional data suitable for Original Research Articles must embody replicated estimate of tissue constituents, such as oil, protein, carbohydrate, fatty acid, phospholipid, tocopherol, sterol, and carotenoid compositions. Other components unique to the specific plant or animal source may be reported. Furthermore, lipid composition papers should incorporate elements of year­to­year, environmental, and/ or cultivar variations through use of appropriate statistical analyses.
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