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Fluorooxoborate Promoting the Exploration of Short-Wavelength Linear and Nonlinear Optical Crystals with Expected Properties and Versatile Structures

Bingliang Cheng, Wenjuan Ma, Abudukadi Tudi, Fangfang Zhang, Zilong Chen, Xueling Hou, Zhihua Yang, Shilie Pan

2023Chemistry of Materials26 citationsDOI

Abstract

Short-wavelength optical crystals are the key components of optical devices, but only a few crystals can be used in practical applications. In recent years, the emergence of fluorooxoborate has expanded the source of optical crystals. Herein, a series of new fluorooxoborates, α -K 3 B 6 O 9 F 3, K 1.2 Rb 1.8 B 6 O 9 F 3, K 2.9 Cs 0.1 B 6 O 9 F 3, Rb 2 B 6 O 9 F(OH), KB 3 O 4 F 2, and K 5 B 11 O 18 F 2, were successfully synthesized in a closed system. Among them, α -K 3 B 6 O 9 F 3, K 1.2 Rb 1.8 B 6 O 9 F 3, K 2.9 Cs 0.1 B 6 O 9 F 3, and Rb 2 B 6 O 9 F(OH) are noncentrosymmetric and show evident second-harmonic generation response (0.7–0.8 × KH 2 PO 4 ). Specifically, Rb 2 B 6 O 9 F(OH) has a unique [B 6 O 11 F(OH)] fundamental building block composed of four different anionic units, and its shortest phase-matching wavelength is 244 nm based on theoretical calculations. The centrosymmetric KB 3 O 4 F 2 has a large birefringence (0.096 at 546 nm) due to its rare one-dimensional [B 3 O 4 F 2 ] ∞ chains, and K 5 B 11 O 18 F 2 has a unique [B 11 O 21 F 2 ] fundamental building block that polymerizes to form the 14-membered ring channels. These results facilitate the exploration of short-wavelength optical materials in fluorooxoborates.

Topics & Concepts

WavelengthBirefringenceNonlinear opticalSecond-harmonic generationMaterials scienceOptoelectronicsBlock (permutation group theory)Phase (matter)Nonlinear opticsOpticsNonlinear systemCrystallographyChemistryPhysicsMathematicsLaserOrganic chemistryGeometryQuantum mechanicsCrystal Structures and PropertiesMultiferroics and related materialsX-ray Diffraction in Crystallography
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