Theoretical study of solvent effects on the hyperpolarizabilities of two chalcone derivatives

C. Valverde, João Victor Batista Soares, André Duarte da Silva, Bruno Vieira da Luz, Daniel Junior Almeida dos Santos, Elisa Guimarães Barbosa Carvalho, Yara Cecilia Monteiro Oliveira, Hamilton Barbosa Napolitano, B. Baseia, Francisco Aparecido Pinto Osório
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引用次数: 5

Abstract

The use of organic as nonlinear optical materials has been intensively explored in the recent years due to the ease of manipulation of the molecular structure and the synthetic flexibility regarding the change of substituent groups. In the present work, the linear and nonlinear properties of two chalcones derivatives ( E )-1-(4-methylphenyl)-3-phenylprop-2-en-1-one (4MP3P) and ( E )-1-(4-Nitrophenyl)-3-phenylprop-2-en-1-one (4NP3P), that differ by the substituent position at the phenyl ring, were studied in the presence of protic and aprotic solvents simulated by the Polarizable Continuum Model (PCM) at DFT/B3LYP/6-311+G(d) level. The static and dynamic (1064 nm) molecular parameters as the dipole moment, linear polarizability, first and second hyperpolarizabilities were studied as function of the solvent dielectric constant value. The geometrical behavior as the chemical bond angles, torsion angles, and partial charges distribution of the compounds were studied, including calculations of gap energies in various solvents. The obtained results revealed that the substituent change of CH 3 (4MP3P) to NO 2 (4NP3P) benefits the nonlinear optical properties of the compounds in the presence of the solvent media, the absolute values of the parallel first hyperpolarizability were the ones that present the greater variation.
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溶剂对两种查尔酮衍生物超极化性影响的理论研究
近年来,有机材料作为非线性光学材料的应用受到了广泛的探索,因为其分子结构易于操纵,并且对取代基的变化具有合成灵活性。在DFT/B3LYP/6-311+G(d)水平上,用极化连续模型(PCM)模拟了两种不同取代基位置的查尔酮衍生物(E)-1-(4-甲基苯基)-3-苯基prop-2-en-1-one (4MP3P)和(E)-1-(4-硝基苯基)-3-苯基prop-2-en-1-one (4NP3P)在质子溶剂和非质子溶剂存在下的线性和非线性性质。研究了溶剂介电常数值与静态和动态(1064 nm)分子参数偶极矩、线性极化率、第一超极化率和第二超极化率的关系。研究了化合物的几何行为,如化学键角、扭转角和部分电荷分布,包括在各种溶剂中的间隙能的计算。结果表明,在溶剂介质存在下,ch3 (4MP3P)取代基转变为no2 (4NP3P)有利于化合物的非线性光学性质,平行第一超极化率的绝对值变化最大。
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