The Bond-Valence Substituent Index for Predicting the Boiling Temperatures of Aliphatic Hydrocarbons

KIMIKA Pub Date : 2020-06-18 DOI:10.26534/kimika.v31i1.38-55

F. Sumera, Stephani Jacutin, Jan Michael Aficial, Aileen Filipino

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引用次数: 1

Abstract

A simple molecular descriptor based on molecular structure for predicting the boiling temperature (BT) of alkanes was developed in this paper. This topological index was used to correlate the boiling temperature of aliphatic hydrocarbons with their bond-valence substituent structure instead of by atom-to-atom branching framework. The predictive power of the bond-valence substituent index (BVSI) was evaluated by comparing it with the popular predictor in literature, the Randic index and the more recently proposed index, the Fi of Manso et al. (2012). The model developed through a second order regression of the plot of the alkane’s boiling temperature versus the BVSI index proved successful in its predictive power such that the method was also applied to a combination of aliphatic hydrocarbons, the alkanes, alkenes, alkynes and cycloalkanes. This topological index provided higher correlation with small deviations compared to the topological index used for comparison. A further study of the BVSI index can be explored for other organic compounds with different functional groups and other physical properties besides their boiling temperatures in the future.

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预测脂肪烃沸腾温度的键价取代基指数

提出了一种基于分子结构预测烷烃沸腾温度的简单分子描述符。该拓扑指数用于将脂肪烃的沸点温度与其键价取代基结构联系起来，而不是用原子-原子分支框架。通过将键价取代基指数(BVSI)与文献中流行的预测指标Randic指数和最近提出的指数Manso et al.(2012)的Fi进行比较，评估了BVSI的预测能力。该模型通过对烷烃沸腾温度与BVSI指数的二阶回归图开发，证明其预测能力是成功的，因此该方法也适用于脂肪烃、烷烃、烯烃、炔烃和环烷烃的组合。与用于比较的拓扑指数相比，该拓扑指数与小偏差的相关性更高。BVSI指数的进一步研究可以在未来探索其他具有不同官能团和其他物理性质的有机化合物的沸点温度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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