材料科学
卤化物
紫外线
双折射
堆积
发光
光致发光
金属卤化物
带隙
光电子学
非线性光学
离子键合
发色团
二次谐波产生
相位匹配
非线性光学
紫外线
金属
相(物质)
光学
激发态
氟化物
分子物理学
工作(物理)
光子学
光学频率梳
二面角
溶剂变色
激发
作者
Jiajing Wu,Yu‐Qi Xu,Wen‐Dong Yao,Zhen‐Cheng Wu,Yi‐Fan Fu,Ruo‐Nan Li,Yu‐Mei Zhang,Qiao‐Feng Huang,Sheng‐Ping Guo
摘要
ABSTRACT The development of novel ultraviolet nonlinear optical (UV NLO) materials remains challenging, primarily due to the inherent trade–off among NLO efficiency, bandgap, and birefringence. Herein, we report the first examples of fluorine–containing hybrid lone–pair metal mixed halides UV NLO crystals (C 4 H 8 N 5 ) 2 SbCl 3 F 2 ·H 2 O ( 1 ) and (C 4 H 8 N 5 ) 2 SbCl 2 F 3 ·H 2 O ( 2 ), which exhibit bright blue photoluminescence and wide bandgaps, and their functional motifs’ packing styles exhibit significant difference. The organic (C 4 H 8 N 5 ) + cations in 1 adopt an intersecting arrangement with a large dihedral angle, whereas those in 2 exhibit a displaced parallel stacking pattern, leading to distinct second–harmonic generation (SHG) efficiencies and birefringences. In particular, 2 demonstrates excellent linear and NLO performance, including phase matching behavior with strong SHG response (2.82 × KDP), wide optical bandgap (4.36 eV), and large birefringence (0.23@546 nm), representing the highest SHG response among reported ionic hybrid Sb–based halides with optical bandgap exceeding 4.2 eV. Theoretical and structural studies reveal that the outstanding NLO performance arises from the cooperative effect of distorted [SbCl 2 F 3 ] 2 − anions and the uniform alignment of the (C 4 H 8 N 5 ) + cations. This work establishes a design principle for exploring outstanding mixed–halide UV NLO materials.
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