材料科学
卤化物
发光
金属
晶体结构
密度泛函理论
溶剂
锑
化学物理
聚合物
氢键
四方晶系
格子(音乐)
联轴节(管道)
合金
金属有机骨架
结晶学
声子
双锥
Atom(片上系统)
激子
单晶
纳米晶
氢
光致发光
静水压力
Crystal(编程语言)
等结构
无机化学
光化学
激光器
物理化学
作者
Ruibin Hao,Hongli Yu,Yibo Cui,Ruonan Yao,Ting Bin Wen,Yonggang Wang,Jing Zhao,Quanlin Liu
标识
DOI:10.1002/adfm.202532142
摘要
ABSTRACT Stimuli responsive luminescent materials that can be triggered by mechanical, thermal, or solvent inputs hold great potential for advanced information security and anti‐counterfeiting applications. In this study, we present a family of 0D antimony based organic inorganic hybrid metal halides, C 7 H 18 N 2 SbX 5 (where C 7 H 18 N 2 represents 1‐Isopropylpiperazine and X = Cl, Br, I), designed by coupling a flexible diammonium cation with highly distorted Sb halide polyhedra. Single crystal analysis reveals that C 7 H 18 N 2 SbCl 5 consists of discrete tetrameric clusters, while its Br and I counterparts contain edge sharing dimeric [Sb 2 X 10 ] units. Under UV light, the pristine C 7 H 18 N 2 SbCl 5 is nonemissive at room temperature but exhibits reversible, stimulus‐induced turn‐on luminescence: grinding, hydrostatic pressure, heating, or solvent treatment trigger broadband orange emission. Temperature and pressure dependent photoluminescence, along with structural analyses, show that these external stimuli induce local angular distortions in the Sb–Cl polyhedra and reorganize the hydrogen bonding network, while maintaining the overall framework. Density functional theory calculations indicate that the emission is related to Cl 3p to Sb 5s/5p transitions, with lattice distortions stabilizing self‐trapped excitons and suppressing nonradiative decay. Polymer composites based on C 7 H 18 N 2 SbCl 5 exhibit thermally rewritable, solvent‐controlled, and mechano‐responsive luminescence patterns.
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