Theoretical Estimation of Non Linear Optical Properties of Organic Framework Containing p-Nitroaniline Linked to Naphthalene/azanaphthalene Through Saturated Carbon Chain

A. Varghese, M. George
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引用次数: 1

Abstract

Nonlinear optical (NLO) properties of N-substituted p-nitroaniline molecules, N-[3(naphthalene-1-yloxy)butyl]-4-nitroaniline (1), N-[3-(2,4,5-triazanaphthalene-1-yloxy)butyl]-4-nitroaniline (2) and N-[3-(2,4,5,7-tetraazanaphthalene-1-yloxy)butyl]-4-nitroaniline (3) have been calculated theoretically. The theoretical calculations were performed with three different hybrid density functional theories (DFT) i.e. BPV86, B3LYP and M-06 with 6-31++G (d,p) basis set. These molecular systems exhibit large first static hyperpolarizabilities. The optical response of these molecular systems is compared with that of p-nitroaniline, which is an excellent NLO dye. The result shows that, naphthalene or azanaphthalene derivatives of p-nitroaniline, exhibit large hyperpolarizability than p-nitroaniline and hence can be recommended for photovoltaic device fabrication.
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含对硝基苯胺通过饱和碳链连接萘/氮杂萘有机骨架非线性光学性质的理论估计
从理论上计算了N-取代对硝基苯胺分子N-[3(萘-1-基氧基)丁基]-4-硝基苯胺(1)、N-[3-(2,4,5-三氮杂萘-1-基氧基)丁基]-4-硝基苯胺(2)和N-[3-(2,4,5,7-四氮杂萘-1-基氧基)丁基]-4-硝基苯胺(3)的非线性光学性质。采用BPV86、B3LYP和M-06 3种不同的混合密度泛函理论(DFT),以6-31++G (d,p)基集进行理论计算。这些分子体系表现出较大的第一静态超极化率。将这些分子体系的光学响应与对硝基苯胺的光学响应进行了比较,对硝基苯胺是一种优良的NLO染料。结果表明,萘或对硝基苯胺的氮杂萘衍生物比对硝基苯胺具有更高的超极化率,因此可以推荐用于光伏器件的制造。
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