苯并和蒽醌二甲烷衍生物的分子结构、HOMO、LUMO、MEP、天然键轨道分析

Tahar Abbaz, A. Bendjeddou, D. Villemin
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引用次数: 29

摘要

目的:以6-31G (d,p)为基组,采用DFT/B3LYP方法研究优化后的分子结构。利用自然键轨道(NBO)分析了苯并和蒽醌二甲烷衍生物1-4的稳定性、超共轭相互作用、电荷离域和分子内氢键。讨论了电子结构,确定了电子密度的重新定位。对分子静电势、局部密度泛函描述符进行了研究。非线性光学(NLO)性质也进行了研究。此外,对优化后的结构进行了前沿分子轨道分析。研究了其电离势(I)、电子亲和性(A)、亲电性指数(ω)、化学势(µ)、电负性(χ)、硬度(η)和柔软度(S)。以上计算均采用上述方法进行。方法:以6-31G(d,p)基为基础,采用DFT/B3LYP方法对苯并和蒽醌二甲烷衍生物的分子结构、非线性性质、自然键轨道(NBO)、分子静电势(MEP)和前沿分子轨道进行了研究。结果:利用MEP在B3LYP/6-31G上预测了所研究分子亲电和亲核攻击的反应位点(d,p)。化合物4具有较高的电负性;它是最好的电子受体;亲电攻击的活性位点较多见于化合物1和4,亲核攻击的活性位点较多见于化合物2和3,自由基攻击的活性位点较多见于化合物2和4。结论:化合物1最柔软,是最好的电子供体,反应性较好。尿素的一阶超极化率比文献报道的要小得多。
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Molecular structure, HOMO, LUMO, MEP, natural bond orbital analysis of benzo and anthraquinodimethane derivatives
Objective: Optimized molecular structures have been investigated by DFT/B3LYP method with 6-31G (d,p) basis set. Stability of Benzo and anthraquinodimethane derivatives 1-4, hyperconjugative interactions, charge delocalization and intramolecular hydrogen bond has been analyzed by using natural bond orbital (NBO) analysis. Electronic structures were discussed and the relocation of the electron density was determined. Molecular electrostatic potential (MEP), local density functional descriptors has been studied. Nonlinear optical (NLO) properties were also investigated. In addition, frontier molecular orbitals analyses have been performed from the optimized geometries. An ionization potential (I), electron affinity (A), electrophilicity index (ω), chemical potential (µ), electronegativity (χ), hardness (η), and softness (S), have been investigated. All the above calculations are made by the method mentioned above.Methods: The most stable optimized geometries obtained from DFT/B3LYP method with 6-31G(d,p) basis set were investigated for the study of molecular structures, nonlinear properties, natural bond orbital (NBO), molecular electrostatic potential (MEP) and frontier molecular orbital of Benzo and anthraquinodimethane derivatives.Results: Reactive sites of electrophilic and nucleophilic attacks for the investigated molecule were predicted using MEP at the B3LYP/6-31G(d,p). Compound 4 possesses higher electronegativity value than all compounds so; it is the best electron acceptor; the more reactive sites for electrophilic attacks are shown in compounds 1 and 4, for nucleophilic attacks are indicated in compounds 2 and 3 and the more reactive sites in radical attacks are detected in compounds 2 and 4.Conclusions: Compound 1 is softest, best electron donor and more reactive than all compounds. The calculated first order hyperpolarizability was found much lesser than reported in literature for urea.
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