具有明亮发光和非线性光学效应的18-冠-6配位金属卤化物。

18-Crown-6 Coordinated Metal Halides with Bright Luminescence and Nonlinear Optical Effects.

作者信息

Merzlyakova Elena, Wolf Silke, Lebedkin Sergei, Bayarjargal Lkhamsuren, Neumeier B Lilli, Bartenbach Daniel, Holzer Christof, Klopper Wim, Winkler Bjoern, Kappes Manfred, Feldmann Claus

机构信息

Institute of Inorganic Chemistry (IAC), Karlsruhe Institute of Technology (KIT), Engesserstraße 15, D-76131 Karlsruhe, Germany.

Institute of Nanotechnology (INT), Karlsruhe Institute of Technology (KIT), Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany.

出版信息

J Am Chem Soc. 2021 Jan 20;143(2):798-804. doi: 10.1021/jacs.0c09454. Epub 2021 Jan 6.

DOI:10.1021/jacs.0c09454

PMID:33405904

Abstract

The crown-ether coordination compounds Zn(18-crown-6), Eu(18-crown-6) (: Cl, Br, I), MnI(18-crown-6), MnCl(18-crown-6), MnI(18-crown-6), and MnI(18-crown-6) are obtained by ionic-liquid-based synthesis. Whereas (18-crown-6) (: Zn, Eu) show conventional structural motives, MnCl(18-crown-6), MnI(18-crown-6), and MnI(18-crown-6) exhibit unusual single Mn tetrahedra coordinated to the crown-ether complex. Surprisingly, some compounds show outstanding photoluminescence. Thus, rare Zn-based luminescence is observed and unexpectedly efficient for ZnI(18-crown-6) with a quantum yield of 54%. Unprecedented quantum yields are also observed for MnI(18-crown-6), EuBr(18-crown-6), and EuI(18-crown-6) with values of 98, 72, and 82%, respectively, which can be rationalized based on the specific structural features. Most remarkable, however, is MnI(18-crown-6). Its specific structural features with finite sensitizer-activator couples result in an extremely strong emission with an outstanding quantum yield of 100%. Consistent with its structural features, moreover, anisotropic angle-dependent emission under polarized light and nonlinear optical (NLO) effects occur, including second-harmonic generation (SHG). The title compounds and their optical properties are characterized by single-crystal structure analysis, X-ray powder diffraction, chemical analysis, density functional theory (DFT) calculations, and advanced spectroscopic methods.

摘要

通过基于离子液体的合成方法获得了冠醚配位化合物Zn(18 - 冠 - 6)、Eu(18 - 冠 - 6)(: Cl、Br、I)、MnI(18 - 冠 - 6)、MnCl(18 - 冠 - 6)、MnI(18 - 冠 - 6)和MnI(18 - 冠 - 6)。虽然(18 - 冠 - 6)(: Zn、Eu)呈现出传统的结构模式，但MnCl(18 - 冠 - 6)、MnI(18 - 冠 - 6)和MnI(18 - 冠 - 6)展现出与冠醚络合物配位的异常单个锰四面体。令人惊讶的是，一些化合物表现出出色的光致发光性能。因此，观察到了罕见的基于锌的发光现象，并且对于ZnI(18 - 冠 - 6)而言，其量子产率高达54%，效率出乎意料地高。对于MnI(18 - 冠 - 6)、EuBr(18 - 冠 - 6)和EuI(18 - 冠 - 6)也观察到了前所未有的量子产率，分别为98%、72%和82%，这可以根据特定的结构特征进行合理解释。然而，最引人注目的是MnI(18 - 冠 - 6)。其具有有限敏化剂 - 激活剂对的特定结构特征导致了极强的发射，量子产率高达100%。此外，与其结构特征一致，在偏振光下出现各向异性角度相关发射以及非线性光学(NLO)效应，包括二次谐波产生(SHG)。通过单晶结构分析、X射线粉末衍射、化学分析、密度泛函理论(DFT)计算和先进的光谱方法对标题化合物及其光学性质进行了表征。

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具有明亮发光和非线性光学效应的18-冠-6配位金属卤化物。

18-Crown-6 Coordinated Metal Halides with Bright Luminescence and Nonlinear Optical Effects.

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