Litcius/Paper detail

Blue‐Light‐Excitable Red‐to‐Near Infrared Photoluminescence in 0D Antimony(III) Bromide Hybrids for Supplemental Lighting

Jiance Jin, Shining Geng, Kai Han, Zewen Xiao, Zhiguo Xia

2024Advanced Optical Materials45 citationsDOI

Abstract

Abstract Antimony (III)‐containing halide hybrids possess a distinctive stereoactivity with a 5s 2 lone pair, which further induces significant structural distortions upon light excitation. Herein disordered dis ‐[TPPen] 2 SbBr 5 (TPPen = triphenylpentylphosphonium) and ordered ord ‐[TPPen] 2 SbBr 5 , have been synthesized and exhibit self‐trapped excitons (STEs) emissions in the red‐to‐near infrared (NIR) range. Benefiting from a high distortion degree of STEs confined within the [SbBr 5 ] 2− unit and the pronounced alterations in the Sb─Br bond lengths upon blue‐light excitation, dis ‐[TPPen] 2 SbBr 5 achieves a greater level of excited state distortion and a larger Stokes shift than those of ord ‐[TPPen] 2 SbBr 5 . The fabrication of blue light excited NIR light‐emitting device based on dis ‐[TPPen] 2 SbBr 5 demonstrates the prospective application in night vision supplemental lighting and non‐destructive examination. This work provides valuable molecular design strategies for the NIR luminescent materials in hybrid metal halides.

Topics & Concepts

Materials sciencePhosphorLuminescenceOptoelectronicsAntimonyPhotoluminescenceHalideExcited stateBlue lightOpticsChemistryInorganic chemistryAtomic physicsPhysicsMetallurgyPerovskite Materials and ApplicationsOrganic and Molecular Conductors ResearchInorganic Chemistry and Materials
Blue‐Light‐Excitable Red‐to‐Near Infrared Photoluminescence in 0D Antimony(III) Bromide Hybrids for Supplemental Lighting | Litcius