光致发光
激子
纳米晶
钙钛矿(结构)
荧光
材料科学
光电子学
纳米技术
发光
环境压力
航程(航空)
光化学
化学
光学
结晶学
物理
凝聚态物理
复合材料
热力学
作者
Zhiwei Ma,Songrui Yang,Yue Shi,Yuan Fu,Kai Wang,Guanjun Xiao,Bo Zou
标识
DOI:10.1002/anie.202406015
摘要
Abstract Piezochromic materials refer to a class of matters that alter their photoluminescence (PL) colors in response to the external stimuli, which exhibit promising smart applications in anti‐counterfeiting, optoelectronic memory and pressure‐sensing. However, so far, most reported piezochromic materials have been confined to organic materials or hybrid materials containing organic moieties with limited piezochromic range of less than 100 nm in visible region. Here, we achieved an intriguing piezochromism in all‐inorganic zero‐dimensional (0D) Cs 3 Cu 2 Cl 5 nanocrystals (NCs) with a considerable piezochromic range of 232 nm because of their unique inorganic rigid structure. The PL energy shifted from the lowest‐energy red fluorescence (1.85 eV) to the highest‐energy blue fluorescence (2.83 eV), covering almost the entire visible wavelength range. Pressure‐modulated self‐trapped exciton emission between different energy levels of self‐trapped states within Cs 3 Cu 2 Cl 5 NCs was the main reason for this piezochromism property. Note that the quenched emission, which is over five times more intense than that in the initial state, is retained under ambient conditions upon decompression. This work provides a promising pressure indicating material, particularly used in pressure stability monitoring for equipment working at extreme environments.
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