Abstract
The 3,5-dithiooctyl dithienothiophene based small molecular semiconductor DDTT-DSDTT (1), end functionalized with fused dithienothiophene (DTT) units, was synthesized and characterized for organic field effect transistors (OFET). The thermal, optical, electrochemical, and computed electronic structural properties of 1 were investigated and contrasted. The single crystal structure of 1 reveals the presence of intramolecular locks between S(alkyl)···S(thiophene), with a very short S-S distance of 3.10 Å, and a planar core. When measured in an OFET device compound 1 exhibits a hole mobility of 3.19 cm2 V-1 s-1, when the semiconductor layer is processed by a solution-shearing deposition method and using environmentally acceptable anisole as the solvent. This is the highest value reported to date for an all-thiophene based molecular semiconductor. In addition, solution-processed small molecule/insulating polymer (1/PαMS) blend films and devices were investigated. Morphological analysis reveals a nanoscopic vertical phase separation with the PαMS layer preferentially contacting the dielectric and 1 located on top of the stack. The OFET based on the blend comprising 50% weight of 1 exhibits a hole mobility of 2.44 cm2 V-1 s-1 and a very smaller threshold voltage shift under gate bias stress.
Original language | English (US) |
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Pages (from-to) | 727-738 |
Number of pages | 12 |
Journal | ACS nano |
Volume | 15 |
Issue number | 1 |
DOIs | |
State | Published - Jan 26 2021 |
Funding
C.-L.L. thanks for the funding from the Young Scholar Fellowship Program (Columbus Program) by MOST in Taiwan, under Grant MOST 109-2636-E-002-029. M.-C.C. thanks to MOST (MOST 109-3111-8-008-001) and NCU-DSM Research Center, and Research Center of New Generation Light Driven Photovoltaic Module for funding support. A.F. thanks to AFOSR (Grant FA9550-18-1-0320). The authors thanks to Beamline B13A1/B17A1/B23A1 from NSRRC of Taiwan for providing beamtime.
Keywords
- 3,5-dithioalkyl dithienothiophene
- organic semiconductors
- organic transistor
- polymer blend
- solution-processing
ASJC Scopus subject areas
- General Engineering
- General Materials Science
- General Physics and Astronomy
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CCDC 2008636: Experimental Crystal Structure Determination
Lin, C.-C. (Contributor), Afraj, S. N. (Contributor), Velusamy, A. (Contributor), Yu, P.-C. (Contributor), Cho, C.-H. (Contributor), Chen, J. (Contributor), Li, Y.-H. (Contributor), Lee, G.-H. (Contributor), Tung, S.-H. (Contributor), Liu, C.-L. (Contributor), Chen, M.-C. (Contributor) & Facchetti, A. (Contributor), Cambridge Crystallographic Data Centre, 2022
DOI: 10.5517/ccdc.csd.cc25f4qh, http://www.ccdc.cam.ac.uk/services/structure_request?id=doi:10.5517/ccdc.csd.cc25f4qh&sid=DataCite
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