1. Recent advances and future perspectives on infrared nonlinear optical metal halides.
- Author
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Gong, Pifu, Liang, Fei, Kang, Lei, Chen, Xingguo, Qin, Jingui, Wu, Yicheng, and Lin, Zheshuai
- Subjects
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NONLINEAR optical materials , *METAL halides , *TETRAHEDRAL intermediates , *LASER damage , *ANIONS - Abstract
Highlights • This is the first systematic review for NLO metal halides. • The relationships between microscopic structures and NLO performances in NLO metal halides are summarized and analyzed. • The development prospects for NLO metal halides are discussed. Abstract Infrared (IR) nonlinear optical (NLO) materials are of current interest owing to their technological applications in many military and civil fields. Metal halides are among the most favorable candidates for IR laser frequency conversion owing to their relatively large NLO effects, wide IR transparency and high laser damage thresholds (LDT). However, the comprehensive review for metal halides NLO materials is absent. Herein, we focus on the relationship between the structural features and NLO performances in the reported metal halide NLO materials. In particular, metal halides are classified according to the NLO-active [ MX k ] anionic units and NLO-active cations, i.e. , they are sorted into traditional metal halides containing linear units, triangle pyramidal units, tetrahedral units, rectangular pyramidal units, five-coordinated pseudo-octahedra, six- and more-coordinated polyhedral units, organic-inorganic and supramolecular metal halides. The determination rules of these microscopic structures on NLO properties in metal halides are summarized and analyzed on the basis of the combination of available experimental data and first-principles results. From the deduced structure-property relationship, the development prospects for NLO metal halides are discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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