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Polaron Pair-Mediated Radiative Recombination of Singlet Excitons in a Conjugated Polymer Aggregate by Plasmonic and Semiconductor Nanocrystals

Authors
Kim, Yeon GyuHan, Se GyoShao, GuanningHa, TaeyongSung, YunmoJeong, MinyoungYun, Hyuk GuRyu, Jeong YeonKim, Dong HyeonKim, BoraJeong, Mun SeokKim, SungjeeChoi, Young JinHong, Young JoonCho, KilwonLee, Dongki
Issue Date
Nov-2024
Publisher
American Chemical Society
Citation
The Journal of Physical Chemistry Letters, v.15, no.47, pp 11806 - 11814
Pages
9
Indexed
SCIE
SCOPUS
Journal Title
The Journal of Physical Chemistry Letters
Volume
15
Number
47
Start Page
11806
End Page
11814
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/202098
DOI
10.1021/acs.jpclett.4c02662
ISSN
1948-7185
1948-7185
Abstract
We investigated the excited-state dynamics of a conjugated polymer (CP:P3HT)-based ternary hybrid system containing P3HT-coated gold nanoparticles and quantum dots. Transient absorption spectroscopy results revealed that polaron pairs (PPs) originating from nonrelaxed singlet (S1) excitons of the CP aggregate in the ternary system have shorter electron-hole separation distances than those of PPs in the neat CP aggregate because of the photophysical effects of plasmonic and semiconductor nanocrystals. In particular, the shorter electron-hole distances of PPs led to more back-recombination to S1 excitons than dissociation into positive polarons in the ternary system, resulting in increased S1 radiative recombination compared with that in the neat CP system. Thus, the photoluminescence intensity of the CP aggregate in the ternary system increased. Our findings provide new insights into the excited-state dynamics of CPs and pave the way for the development of next-generation high-efficiency optoelectronic devices.
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