碱金属原子-芳环：一种新颖的相互作用模式实现了 M@AR（M=Li、Na 和 K，AR=吡咯、吲哚、噻吩和苯）的大的第一超极化率。

Alkali metal atom-aromatic ring: a novel interaction mode realizes large first hyperpolarizabilities of M@AR (M=Li, Na, and K, AR=pyrrole, indole, thiophene, and benzene).

机构信息

State Key Laboratory of Theoretical and Computational Chemistry, Institute of Theoretical Chemistry, Jilin University, Changchun 130023, People's Republic of China.

出版信息

J Comput Chem. 2011 Jul 15;32(9):2005-11. doi: 10.1002/jcc.21789. Epub 2011 Apr 11.

DOI:10.1002/jcc.21789

PMID:21484837

Abstract

Several new electride compounds M@pyrrole (M = Li, Na, and K), Li@AR (AR = indole, thiophene, and benzene), Li@tryptophan and Li@serotonin were designed and investigated, which exhibit considerably large first hyperpolarizabilities (β(0)) (6705, 1116, 11399, 5781, 4808, 1536, 8106, and 9389 au, respectively) by comparison with their corresponding sole molecules pyrrole (β(0) = 30 au), indole (104 au), thiophene (6 au), benzene (0 au), tryptophan (159 au) and serotonin (151 au), respectively. The computational results revealed that the interaction of the alkali metal atom with π-conjugated aromatic ring (AR) is one effectively new approach to produce diffuse excess electron to get a large β(0) value, which is advantageous for the design of the novel high-performance NLO materials with π-conjugated AR: alkali metal atoms doped nanomaterials and biomolecules.

摘要

设计并研究了几种新型的电子化物化合物 M@吡咯（M=Li、Na 和 K）、Li@AR（AR=吲哚、噻吩和苯）、Li@色氨酸和 Li@血清素，与相应的单一分子吡咯（β（0）=30 au）、吲哚（104 au）、噻吩（6 au）、苯（0 au）、色氨酸（159 au）和血清素（151 au）相比，它们表现出相当大的第一超极化率（β（0））（6705、1116、11399、5781、4808、1536、8106 和 9389 au）。计算结果表明，碱金属原子与π-共轭芳香环（AR）的相互作用是产生弥散过剩电子以获得大β（0）值的一种有效新方法，这有利于设计具有π-共轭 AR 的新型高性能 NLO 材料：掺杂纳米材料和生物分子的碱金属原子。

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碱金属原子-芳环：一种新颖的相互作用模式实现了 M@AR（M=Li、Na 和 K，AR=吡咯、吲哚、噻吩和苯）的大的第一超极化率。

Alkali metal atom-aromatic ring: a novel interaction mode realizes large first hyperpolarizabilities of M@AR (M=Li, Na, and K, AR=pyrrole, indole, thiophene, and benzene).

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