EcoMat (Feb 2023)

High quantum yield of In‐based halide perovskites for white light emission and flexible x‐ray scintillators

  • Dehai Liang,
  • Xiaohui Liu,
  • Binbin Luo,
  • Qingkai Qian,
  • Wensi Cai,
  • Shuangyi Zhao,
  • Jiangzhao Chen,
  • Zhigang Zang

DOI
https://doi.org/10.1002/eom2.12296
Journal volume & issue
Vol. 5, no. 2
pp. n/a – n/a

Abstract

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Abstract In‐based halides always present low photoluminescence quantum yield (PLQY) because of poor absorption, limiting their potential applications in luminescence‐related fields. In this work, zero‐dimensional MA4InCl7 [MA+: CH3NH3+] halides with different Sb3+ doping level are prepared through solvent evaporating method. The Sb3+‐doped MA4InCl7 shows a broadband yellow emission with full width at half‐maximum of 180 nm and a high PLQY of 84%. Such broadband emission originates from the self‐trapped excitons demonstrated by experimental results and theoretical calculations. Additionally, the Sb3+‐doped MA4InCl7 is further employed to fabricate white‐light‐emitting diodes, which possesses high color rendering index of 91 and excellent operating stability up to 400 h. Moreover, flexible Sb3+‐doped MA4InCl7 films are also prepared as x‐ray scintillators, exhibiting low detection limit of 63.3 nGyair/s and high spatial resolution of 10.0 lp/mm. Thus, this work provides guidance to design perovskite‐based devices with bright luminescence and x‐ray detection with excellent flexibility.

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