1. SrB5O7F3 Functionalized with [B5O9F3]6− Chromophores: Accelerating the Rational Design of Deep‐Ultraviolet Nonlinear Optical Materials.
- Author
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Mutailipu, Miriding, Zhang, Min, Zhang, Bingbing, Wang, Liying, Yang, Zhihua, Zhou, Xin, and Pan, Shilie
- Subjects
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CHROMOPHORES , *NONLINEAR optical materials , *STRONTIUM compounds , *BAND gaps , *POLARIZATION (Electricity) , *BORATES - Abstract
Abstract: Fluorooxoborates, benefiting from the large optical band gap, high anisotropy, and ever‐greater possibility to form non‐centrosymmetric structures activated by the large polarization of [BOxF4−x](x+1)− building blocks, have been considered as the new fertile fields for searching the ultraviolet (UV) and deep‐UV nonlinear optical (NLO) materials. Herein, we report the first asymmetric alkaline‐earth metal fluorooxoborate SrB5O7F3, which is rationally designed by taking the classic Sr2Be2B2O7 (SBBO) as a maternal structure. Its [B5O9F3]6− fundamental building block with near‐planar configuration composed by two edge‐sharing [B3O6F2]5− rings in SrB5O7F3 has not been reported in any other borates. Solid state 19F and 11B magic‐angle spinning NMR spectroscopy verifies the presence of covalent B−F bonds in SrB5O7F3. Property characterizations reveal that SrB5O7F3 possesses the optical properties required for deep‐UV NLO applications, which make SrB5O7F3 a promising crystal that could produce deep‐UV coherent light by the direct SHG process. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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