Bibliographic Details
| Title: |
Optimizing Emission Stability in Blue Perovskite Light‐Emitting Diodes via Oxygen‐Plasma Treatment of NixOy Hole Transport Layer. |
| Authors: |
Yan, Zhen‐Li1,2 (AUTHOR), Huang, Hong‐Yu2 (AUTHOR), Benas, Jean‐Sebastien2 (AUTHOR), Yang, Ching‐Wei2 (AUTHOR), Su, Chun‐Jen3 (AUTHOR), Liang, Fang‐Cheng2 (AUTHOR), Chen, Wei‐Cheng2 (AUTHOR), Tsai, Hsinhan4 (AUTHOR) hsinhantsai@berkeley.edu, Jeng, Ru‐Jong1 (AUTHOR) rujong@ntu.edu.tw, Kuo, Chi‐Ching2 (AUTHOR) kuocc@mail.ntut.edu.tw |
| Source: |
Advanced Optical Materials. Apr2024, Vol. 12 Issue 11, p1-10. 10p. |
| Subject Terms: |
*LIGHT emitting diodes, *PEROVSKITE, *NICKEL oxide, *HOMOGENEOUS nucleation, *CRYSTAL defects, *OSTWALD ripening, *NICKEL oxides |
| Abstract: |
Currently, wide‐color gamut perovskite light‐emitting diodes (PeLEDs) are commonly controlled through halide composition tuning. However, the formation of perovskite crystals involving different ion radii of halogens often results in structural fragility and ionic defects, leading to emission instability during operation. This study showcases a novel approach to achieving a homogeneous and low‐defect crystalline state by regulating the thermodynamic nucleation mechanism of sky‐blue perovskite, thereby enhancing emission stability. Utilizing oxygen‐plasma treatment, a highly uniform surface energy is ensured for the nickel oxide acting as a hole transport layer. This treatment not only induces homogeneous nucleation of the perovskite layer but also effectively suppresses crystal defects. Simultaneously, the uniform surface energy alleviates halide phase separation caused by Ostwald ripening. Upon optimizing the fabrication conditions for sky‐blue perovskite, the resulting PeLEDs, featuring an electroluminescent peak at 486 nm, attain a luminance of 1125.3 cd m−2 with exceptional electroluminescent stability and a T50 lifetime. Furthermore, gaining insights into the thermodynamic nucleation mechanism in mix‐halides and perovskites contributes to the advancement of research on sky‐blue PeLEDs and offers valuable perspectives for future development. [ABSTRACT FROM AUTHOR] |
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