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Li n F(n = 2 - 5)超碱金属团簇的非线性光学行为。

Nonlinear optical behavior of Li n F (n = 2-5) superalkali clusters.

作者信息

Srivastava Ambrish Kumar, Misra Neeraj

机构信息

Department of Physics, University of Lucknow, Lucknow, 226007, Uttar Pradesh, India.

出版信息

J Mol Model. 2015 Dec;21(12):305. doi: 10.1007/s00894-015-2849-0. Epub 2015 Nov 6.

DOI:10.1007/s00894-015-2849-0
PMID:26546265
Abstract

Hyperlithiated clusters are known for their unusual bonding characteristics and lower ionization potentials. This study reports nonlinear optical (NLO) properties of a series of hyperlithiated clusters, Li n F (n = 2-5) for the first time. The structures of small Li n F (n = 2-5) clusters, obtained using second order Møller-Plesset perturbative method, are found to be stable against eliminations of F, F‾, and LiF. These Li n F species are stabilized by both ionic as well as covalent interactions. Our study shows that Li n F species can be thought of as superalkali-halogen (Li n  - F) clusters but belong to the class of superalkalies themselves. These clusters may also possess alkalide and/or electride characteristics due to excess electrons. The dipole moment, mean polarizability, and hyperpolarizability suggest their significant NLO responses which are explained using the highest occupied molecular orbital surfaces and TD-DFT analysis. The exceptionally large hyperpolarizability of Li2F (~10(5) a.u.) and its electride characteristics are particularly highlighted. This study may guide the researchers in the design of novel materials with significant NLO responses useful for electro-optical applications. Graphical Abstract Li2F superalkali resemble an electride in which the excess electron is pushed out by Li2 (+) moiety, leading to its high hyperpolarizability of order of 10(5) a.u.

摘要

超锂化簇因其不寻常的键合特性和较低的电离势而闻名。本研究首次报道了一系列超锂化簇LiₙF(n = 2 - 5)的非线性光学(NLO)性质。使用二阶Møller - Plesset微扰方法获得的小LiₙF(n = 2 - 5)簇的结构被发现对F、F⁻和LiF的消除是稳定的。这些LiₙF物种通过离子和共价相互作用得以稳定。我们的研究表明,LiₙF物种可以被认为是超碱 - 卤素(Liₙ⁻ - F)簇,但它们本身属于超碱类。由于存在多余电子,这些簇也可能具有碱化物和/或电子化物的特征。偶极矩、平均极化率和超极化率表明它们具有显著的NLO响应,这通过最高占据分子轨道表面和TD - DFT分析得到了解释。特别突出了Li₂F异常大的超极化率(~10⁵ a.u.)及其电子化物特征。这项研究可能会指导研究人员设计出具有显著NLO响应的新型材料,用于电光应用。图形摘要:Li₂F超碱类似于一种电子化物,其中多余的电子被Li₂(+)部分推出,导致其超极化率高达10⁵ a.u. 量级。

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本文引用的文献

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