AI Article Synopsis

  • Lead-free halide perovskites are non-toxic and stable, but their weak luminescence limits practical use, making it crucial to enhance their luminescence for broader applications.
  • Antimony-doped CsNaScCl crystals show strong blue photoluminescence at 447 nm, with a high photoluminescence quantum yield (PLQY) of 78.31% due to effective Sb doping, remaining stable over time.
  • Incorporating rare-earth Sm into the crystals significantly boosts red-light emission intensity by 500 times, achieving an impressive PLQY of 86.78%, illustrating the potential of Sb-doped perovskites for diverse optoelectronic applications.

Article Abstract

The lead-free halide perovskites possess nontoxicity and excellent chemical stability, whereas relatively weak luminescence intensity limits their potential in practical applications. Therefore, strengthening the luminescence intensity and expanding application fields are urgent tasks for the development of lead-free halide perovskites. In this paper, antimony-doped CsNaScCl crystals synthesized by a solvothermal method emit bright, deep blue photoluminescence at 447 nm. The photoluminescence (PL), photoluminescence excitation (PLE), and absorption spectra demonstrate that Sb doping effectively activate the intrinsic "dark self-trapped exciton (STE)," leading to an impressive photoluminescence quantum yield (PLQY) value of 78.31% for 1% Sb doping. Furthermore, the luminescence intensity remains above 92% compared with the fresh sample without secondary phases detected even after 90 days under environmental conditions. To expand the emission spectra, rare-earth Sm is further incorporated into CsNaScCl:1% Sb crystals. The results show that Sb ions not only enhance intrinsic STE luminescence but also serve as sensitizers to boost the red-light emission of Sm, leading to a significant 500-fold increase in red emission intensity. Finally, the PLQY reaches a stunning 86.78%. These findings provide valuable insights in the design of Sb ion-doped lead-free double perovskites, broadening the application fields in various optoelectronic devices.

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Source
http://dx.doi.org/10.1021/acs.inorgchem.4c01339DOI Listing

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