All-in-one organic ligand for emitting perovskite nanocrystals: efficient dispersion, photocurable and charge transporting capability

Na Young Cho; Ji Won Jang; Byeong M. Oh; Gyeong Eun Seok; Haewoon Seo; Sang Wook Kim; Jincheol Kim; Eunsu Kim; Eunha Kim; Hyosung Choi; Bo Ram Lee; Jin Woo Choi; Jong H. Kim

doi:10.1016/j.cej.2024.149792

All-in-one organic ligand for emitting perovskite nanocrystals: efficient dispersion, photocurable and charge transporting capability

Na Young Cho, Ji Won Jang, Byeong M. Oh, Gyeong Eun Seok, Haewoon Seo, Sang Wook Kim, Jincheol Kim, Eunsu Kim, Eunha Kim, Hyosung Choi^*, Bo Ram Lee^*, Jin Woo Choi^*, Jong H. Kim^*

^*Corresponding author for this work

School of Engineering

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Perovskite nanocrystals (PNCs) have attracted considerable interest as next-generation display materials owing to their outstanding photoluminescence quantum yield (PLQY), wide color gamut, and narrow emission bandwidth. However, because of their weak stability against solvents, the patterning of PNCs remains a challenge. In this study, we developed functional organic ligands (AzL1-Th and AzL2-Th) for the fine pixelation of PNC displays. Functional ligands containing photocurable azide moieties exhibit good charge transport properties and fast and efficient photocrosslinking performance, while maintaining a high PLQY. Moreover, the crosslinked PNC light emitting diodes were successfully demonstrated using AzL1-Th. These results suggest the high potential of photocurable ligands for the micro-patterning of PNC films without film damages.

Original language	English
Article number	149792
Pages (from-to)	1-11
Number of pages	11
Journal	Chemical Engineering Journal
Volume	485
DOIs	https://doi.org/10.1016/j.cej.2024.149792
Publication status	Published - 1 Apr 2024

Keywords

Perovskite nanocrystals
Quantum dot ligand
Crosslinking
Photo-patterning
Charge transport

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Cho, N. Y., Jang, J. W., Oh, B. M., Seok, G. E., Seo, H., Kim, S. W., Kim, J., Kim, E., Kim, E., Choi, H., Lee, B. R., Choi, J. W., & Kim, J. H. (2024). All-in-one organic ligand for emitting perovskite nanocrystals: efficient dispersion, photocurable and charge transporting capability. Chemical Engineering Journal, 485, 1-11. Article 149792. https://doi.org/10.1016/j.cej.2024.149792

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title = "All-in-one organic ligand for emitting perovskite nanocrystals: efficient dispersion, photocurable and charge transporting capability",

abstract = "Perovskite nanocrystals (PNCs) have attracted considerable interest as next-generation display materials owing to their outstanding photoluminescence quantum yield (PLQY), wide color gamut, and narrow emission bandwidth. However, because of their weak stability against solvents, the patterning of PNCs remains a challenge. In this study, we developed functional organic ligands (AzL1-Th and AzL2-Th) for the fine pixelation of PNC displays. Functional ligands containing photocurable azide moieties exhibit good charge transport properties and fast and efficient photocrosslinking performance, while maintaining a high PLQY. Moreover, the crosslinked PNC light emitting diodes were successfully demonstrated using AzL1-Th. These results suggest the high potential of photocurable ligands for the micro-patterning of PNC films without film damages.",

keywords = "Perovskite nanocrystals, Quantum dot ligand, Crosslinking, Photo-patterning, Charge transport",

author = "Cho, {Na Young} and Jang, {Ji Won} and Oh, {Byeong M.} and Seok, {Gyeong Eun} and Haewoon Seo and Kim, {Sang Wook} and Jincheol Kim and Eunsu Kim and Eunha Kim and Hyosung Choi and Lee, {Bo Ram} and Choi, {Jin Woo} and Kim, {Jong H.}",

year = "2024",

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doi = "10.1016/j.cej.2024.149792",

language = "English",

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T2 - efficient dispersion, photocurable and charge transporting capability

AU - Cho, Na Young

AU - Jang, Ji Won

AU - Oh, Byeong M.

AU - Seok, Gyeong Eun

AU - Seo, Haewoon

AU - Kim, Sang Wook

AU - Kim, Jincheol

AU - Kim, Eunsu

AU - Kim, Eunha

AU - Choi, Hyosung

AU - Lee, Bo Ram

AU - Choi, Jin Woo

AU - Kim, Jong H.

PY - 2024/4/1

Y1 - 2024/4/1

N2 - Perovskite nanocrystals (PNCs) have attracted considerable interest as next-generation display materials owing to their outstanding photoluminescence quantum yield (PLQY), wide color gamut, and narrow emission bandwidth. However, because of their weak stability against solvents, the patterning of PNCs remains a challenge. In this study, we developed functional organic ligands (AzL1-Th and AzL2-Th) for the fine pixelation of PNC displays. Functional ligands containing photocurable azide moieties exhibit good charge transport properties and fast and efficient photocrosslinking performance, while maintaining a high PLQY. Moreover, the crosslinked PNC light emitting diodes were successfully demonstrated using AzL1-Th. These results suggest the high potential of photocurable ligands for the micro-patterning of PNC films without film damages.

AB - Perovskite nanocrystals (PNCs) have attracted considerable interest as next-generation display materials owing to their outstanding photoluminescence quantum yield (PLQY), wide color gamut, and narrow emission bandwidth. However, because of their weak stability against solvents, the patterning of PNCs remains a challenge. In this study, we developed functional organic ligands (AzL1-Th and AzL2-Th) for the fine pixelation of PNC displays. Functional ligands containing photocurable azide moieties exhibit good charge transport properties and fast and efficient photocrosslinking performance, while maintaining a high PLQY. Moreover, the crosslinked PNC light emitting diodes were successfully demonstrated using AzL1-Th. These results suggest the high potential of photocurable ligands for the micro-patterning of PNC films without film damages.

KW - Perovskite nanocrystals

KW - Quantum dot ligand

KW - Crosslinking

KW - Photo-patterning

KW - Charge transport

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All-in-one organic ligand for emitting perovskite nanocrystals: efficient dispersion, photocurable and charge transporting capability

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