Substituent effect on ionization potential, O-H bond dissociation energy and intra-molecular hydrogen bonding in salicylic acid derivatives

Joshi R; Ghanty TK; Mukherjee T

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Substituent effect on ionization potential, O-H bond dissociation energy and intra-molecular hydrogen bonding in salicylic acid derivatives

机译：取代基对水杨酸衍生物中的电离势，O-H键解离能和分子内氢键的影响

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The ionization potential (IP), O-H bond dissociation energy (BDE) and intra-molecular hydrogen bonding in selected para-substituted salicylic acids, 5-R-SA, with R as -NO2, -CHO, -COOH, -halogen, -OH, -OCH3, -alkyl, -NH2, -NH(CH3), -N(CH3)(2) and their radicals have been investigated by density functional theory with B3LYP functional in conjunction with 6-31G(d) and 6-311++G(d,p) basis sets. All the calculations have also been performed using BHLYP functional in conjunction with 6-311++G(d,p) basis set. A common order of IPs and BDEs for the studied 5-R-SA5 is found as -NO2 > -COOH (-CHO) > -H > -OCH3 > -NH2 > -NH(CH3) > -N(CH3)(2). The effect of substituents on the structure, charge distribution and intramolecular hydrogen bond has also been discussed.

机译：选定的对位取代水杨酸5-R-SA中的电离势（IP），OH键解离能（BDE）和分子内氢键，R为-NO2，-CHO，-COOH，-卤素，- OH，-OCH3，-烷基，-NH2，-NH（CH3），-N（CH3）（2）及其自由基已通过密度泛函理论与B3LYP官能团与6-31G（d）和6- 311 ++ G（d，p）基集。还使用BHLYP功能结合6-311 ++ G（d，p）基集执行了所有计算。研究的5-R-SA5的IP和BDE的常见顺序为-NO2> -COOH（-CHO）> -H> -OCH3> -NH2> -NH（CH3）> -N（CH3）（2 ）。还讨论了取代基对结构，电荷分布和分子内氢键的影响。

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《Journal of Molecular Structure. Theochem: Applications of Theoretical Chemistry to Organic, Inorganic and Biological Problems 》 |2010年第3期| 共8页
作者
Joshi R; Ghanty TK; Mukherjee T;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学 ;
关键词
5-R-Salicylic acids; DFT; Ionization potential; Bond dissociation energy; Hydrogen bond;

机译：5-R-水杨酸;DFT;电离势;键解离能;氢键;

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1. Substituent effect on ionization potential, O-H bond dissociation energy and intra-molecular hydrogen bonding in salicylic acid derivatives [J] . Joshi R, Ghanty TK, Mukherjee T Journal of Molecular Structure. Theochem: Applications of Theoretical Chemistry to Organic, Inorganic and Biological Problems . 2010 ,第1a3期

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Substituent effect on ionization potential, O-H bond dissociation energy and intra-molecular hydrogen bonding in salicylic acid derivatives

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