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Kinetic swelling-driven PTG interlayers for enhanced crystallinity and charge transport in polymer OECTs

Authors
Song, Jeong HyeKim, YongheeYoo, HocheonLee, Eun Kwang
Issue Date
Aug-2025
Publisher
ROYAL SOC CHEMISTRY
Keywords
Composite Films; Crosslinking; Crystal Structure; Crystallinity; Flexible Electronics; Wetting; X Ray Powder Diffraction; Cristallinity; Neuromorphic; Organic Electrochemical Transistors; Organics; Performance; Poly (3-hexylthiophene); Polyvinyls; Substrate Surface Properties; Triton-x; Tunables; Temperature
Citation
JOURNAL OF MATERIALS CHEMISTRY C, v.13, no.34, pp 17801 - 17812
Pages
12
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF MATERIALS CHEMISTRY C
Volume
13
Number
34
Start Page
17801
End Page
17812
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212401
DOI
10.1039/d5tc01098e
ISSN
2050-7526
2050-7534
Abstract
Organic semiconductors (OSCs) are essential for future flexible electronics due to their unique flexibility and tunable molecular structure. However, controlling substrate surface properties to enhance OSC crystallinity through low-temperature solution processes remains challenging. In this study, a polyvinyl alcohol (PVA)-based supporting interlayer modified with glutaraldehyde (GA) and Triton-X is developed to enhance OSC crystallization and charge transport characteristics. GA crosslinking reduces hydroxyl (-OH) groups that can trap charges, while Triton-X micelles create a semi-porous structure, facilitating polymer solution absorption and crystal growth. The modified PVA-based interlayer significantly improves the crystallinity of poly(3-hexylthiophene) (P3HT) and poly[2,5-bis(3-tetradecythiophen-2-yl)thieno[3,2-b]thiophene] (PBTTT), as confirmed by X-ray diffraction analysis. Under optimal wetting conditions, the coherence length of P3HT and PBTTT crystals increases by 148% and 83%, respectively, compared to pristine films. These enhancements lead to a 7.2 times increase in the product of mobility and volumetric capacitance (mu C*) of P3HT-based organic electrochemical transistors (OECTs), reaching 123.13 F cm-1 V-1 s-1. Additionally, the neuromorphic performance of P3HT OECTs supported on the modified interlayer is attributed to superior synaptic behavior, achieving higher paired-pulse facilitation (about 180%), long-term potentiation (LTP), and long-term depression (LTD) characteristics compared to pristine devices. These results pave the way for high-performance OSC-based neuromorphic applications.
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