Determining the Most Stable Structure of Benzamided Derivatives Using Density Functional Theory (DFT)

Indonesian Journal of Chemical Science and Technology (IJCST) Pub Date : 2021-08-23 DOI:10.24114/ijcst.v4i2.27594

Cinthia Uly Hotnami Sinaga, A. Nugraha

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Abstract

This study aims to determine the energy change ∆E and determine the most stable compound based on computation results using the Density Functional Theory (DFT) method. In determining the energy change ∆E and determining the most stable compound, computational chemical calculations were used using NWChem version 6.6 software with the DFT method with the B3LYP / 3-21G base set hybrid function, the results of the calculations were visualized using the Jmol software. The results of computational calculations on the compound Benzamide is 57467.3632844735 kJ / mol, (4 - chlorocarbonyl - benzial) - pyridine acid carbamics - 3 - ilmetyl ester is 641022.0125237265 kJ / mol, (4- phenylcarbamil benzyl) - pyridine acid carbamic - 3 - ilmetyl ester of 491144.0953277345 kJ / mol, [4- (2-nitro - phenyl carbamoyl) - benzyl] - pyridine acid carboxy - 3 - ilmetyl ester of 1031145,366027853 kJ / mol while for [4 - 2 (amino - phenyl carbamyl) - benzyl) - carboxylic acid - 3 - ilmetyl ester of -1034711.17423932 kJ / mol. Based on these data it can be concluded that [4 - 2 (amino - phenyl carbamyl) - benzyl) - carboxylic acid - 3 - ilmetyl ester is the most stable compound formed because of its lowest price (exothermic)

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用密度泛函理论(DFT)确定苯酰胺类衍生物的最稳定结构

本研究旨在利用密度泛函理论(DFT)方法，根据计算结果确定能量变化∆E，并确定最稳定的化合物。在确定能量变化∆E和确定最稳定化合物时，采用NWChem 6.6版软件进行计算化学计算，采用DFT方法，采用B3LYP / 3-21G基集混合函数，计算结果采用Jmol软件进行可视化。计算结果表明，化合物苯酰胺为57467.3632844735 kJ / mol，(4-氯羰基-苄基)-吡啶酸氨基甲酸酯- 3 - ilmetyl酯为641022.0125237265 kJ / mol，(4-苯基氨基苄基)-吡啶酸氨基甲酸酯- 3 - ilmetyl酯为491144.0953277345 kJ / mol，[4 - (2-nitro -苯基[氨基甲酰)苄基)-羧基吡啶酸- 3 - ilmetyl酯1031145、366027853焦每摩尔,为[4 - 2(氨基-苯甲氨酰)-苄基)-羧酸- 3 - ilmetyl酯-1034711.17423932焦每摩尔。基于这些数据可以得出结论,[4 - 2(氨基-苯甲氨酰)-苄基)-羧酸- 3 - ilmetyl酯是最稳定的化合物由于其形成最低价格(放热)

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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Indonesian Journal of Chemical Science and Technology (IJCST)

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