Structural Design of Two Fluorine-Beryllium Borates BaMBe2(BO3)2F2 (M = Mg, Ca) Containing Flexible Two-Dimensional [Be3B3O6F3]∞ Single Layers without Structural Instability Problems.

Shu Guo,Qian Huang,Chuangtian Chen,Lijuan Liu,Zheshuai Lin,Ruofei Wu,Mingjun Xia,Zhi Fang,Xingxing Jiang,Xiaoyang Wang

doi:10.1021/acs.inorgchem.7b01627

Structural Design of Two Fluorine-Beryllium Borates BaMBe2(BO3)2F2 (M = Mg, Ca) Containing Flexible Two-Dimensional [Be3B3O6F3]∞ Single Layers without Structural Instability Problems.

Shu Guo, Qian Huang + Show 8 more

https://doi.org/10.1021/acs.inorgchem.7b01627

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Journal: Inorganic chemistry	Publication Date: Sep 8, 2017
Citations: 9

Affiliation: Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, University of Chinese Academy of Sciences

#Optical Functional Materials #Molecular Structural Design + Show 8 more

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Abstract

Molecular structural design is a compelling strategy to develop new compounds and optimize the crystal structure by atomic-scale manipulation. Herein, two fluorine-beryllium borates, BaMgBe2(BO3)2F2 and BaCaBe2(BO3)2F2, have been rationally designed to overcome the structural instability problems of Sr2Be2B2O7 (SBBO). When relatively large Ba atoms were introduced, the [Be6B6O15]∞ double layers of SBBO were successfully broken, generating flexible [Be3B3O6F3]∞ single layers. Also, the strategy adopted in this work has many implications in understanding the structural chemistry and designing novel optical functional materials in a beryllium borate system.

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