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

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.