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Self-healing of defects in uniaxially aligned semiconducting polymer crystals <i>via</i> molecular doping: insights into crystallization from transient <i>vs.</i> settled amorphous phasesSelf-healing of defects in uniaxially aligned semiconducting polymer crystals via molecular doping: insights into crystallization from transient vs. settled amorphous phases

Other Titles
Self-healing of defects in uniaxially aligned semiconducting polymer crystals via molecular doping: insights into crystallization from transient vs. settled amorphous phases
Authors
Jeong, HokyeongEom, SangwonCho, SanghoonVu, Thanh VanSim, Jae HyunChoi, JinwooPark, SeungjooKim, SanghoBaek, SangeunLee, HyunminChung, HoeilKang, Youngjong
Issue Date
Apr-2025
Publisher
Royal Society of Chemistry
Citation
Journal of Materials Chemistry C, v.13, no.13, pp 6831 - 6841
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
Journal of Materials Chemistry C
Volume
13
Number
13
Start Page
6831
End Page
6841
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/207187
DOI
10.1039/d4tc04913f
ISSN
2050-7526
2050-7534
Abstract
We present the self-healing of defects and enhanced crystallinity in uniaxially aligned poly(3-hexylthiophene) (P3HT) crystals via molecular doping with F4TCNQ. Using eutectic friction transfer (EFT), highly aligned P3HT films (P3HTEFT) were fabricated, exhibiting superior alignment and planarity compared to spin-cast P3HT (P3HTSC). Upon doping, the self-healing of defects in P3HTEFT films led to a significant increase in the charged-ordered phase from 5.4% to 80.3%, transforming transient amorphous phases into well-ordered crystalline domains. In contrast, the conventional P3HTSC films formed settled amorphous phases, and exhibited no self-healing behavior. Structural analysis using polarized UV-VIS, FT-IR, Raman spectroscopy, and GIWAXS confirmed significant improvements in crystalline order and charge carrier mobility. This led to a dramatic increase in electrical conductivity, with doped P3HTEFT (d-P3HTEFT) films exhibiting four orders of magnitude higher conductivity compared to their spin-cast counterparts (d-P3HTSC). These findings highlight the distinct crystallization behaviors of transient versus settled amorphous phases, emphasizing the critical role of uniaxial alignment in realizing highly crystalline semiconducting polymers for organic electronic applications.
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