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. 2020 Mar 2;59(10):4099-4105.
doi: 10.1002/anie.201914000. Epub 2020 Jan 29.

High-Performance Perovskite Light-Emitting Diode with Enhanced Operational Stability Using Lithium Halide Passivation

Tian Wu  1 Junnan Li  1 Yatao Zou  1   2 Hao Xu  1 Kaichuan Wen  3 Shanshan Wan  1 Sai Bai  2 Tao Song  1 John A McLeod  1 Steffen Duhm  1 Feng Gao  2 Baoquan Sun  1
Affiliations
Free article

High-Performance Perovskite Light-Emitting Diode with Enhanced Operational Stability Using Lithium Halide Passivation

Tian Wu et al. Angew Chem Int Ed Engl. .
Free article

Abstract

Defect passivation has been demonstrated to be effective in improving the radiative recombination of charge carriers in perovskites, and consequently, the device performance of the resultant perovskite light-emitting diodes (LEDs). State-of-the-art useful passivation agents in perovskite LEDs are mostly organic chelating molecules that, however, simultaneously sacrifice the charge-transport properties and thermal stability of the resultant perovskite emissive layers, thereby deteriorating performance, and especially the operational stability of the devices. We demonstrate that lithium halides can efficiently passivate the defects generated by halide vacancies and reduce trap state density, thereby suppressing ion migration in perovskite films. Efficient green perovskite LEDs based on all-inorganic CsPbBr3 perovskite with a peak external quantum efficiency of 16.2 %, as well as a high maximum brightness of 50 270 cd m-2 , are achieved. Moreover, the device shows decent stability even under a brightness of 104 cd m-2 . We highlight the universal applicability of defect passivation using lithium halides, which enabled us to improve the efficiency of blue and red perovskite LEDs.

Keywords: lithium halides; non-radiative recombination; passivation; stability; surface defects.

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