Thiophene-fused isoindigo based conjugated polymers for ambipolar organic field-effect transistors?
Polymer Chemistry Pub Date: 2015-10-23 DOI: 10.1039/C5PY01488C
Abstract
A series of donor–acceptor (D–A) type conjugated polymers based on novel thiophene-fused isoindigo (TII) were designed and synthesized via palladium catalyzed Stille copolymerization. We found that the redesign of the synthesis of brominated TII was necessary, and the α-bromination had to be completed at the very beginning, or β-brominated TII was obtained, which only led to cross conjugated polymers. Once the bromination was introduced at the correct position, fully conjugated D–A type polymers could be obtained. A series of fully conjugated polymers were obtained by Stille coupling polymerization of α-brominated TII with different donors, and among them, copolymers with thiophene (T) and (E)-1,2-bis(3-octylthiophen-2-yl)ethene (TVT-8) showed acceptable solubility and were suitable to fabricate solution-processable organic field-effect transistors (OFETs). Top-gate/bottom-contact (TG/BC) devices were constructed for the polymers to test their OFET performances. Both fully conjugated polymers exhibit two-orders of magnitude higher charge carrier mobilities than the cross conjugated ones, and PTII-T shows balanced electron and hole mobilities and PTII-TVT-8 is a p-type dominated semiconductor. These observations indicated that the developed TII unit that has improved coplanarity can be a promising building block for the construction of highly efficient conjugated polymers for OFET applications.
Recommended Literature
- [1] Fe3O4@SiO2 core–shell nanoparticles for biomedical purposes: adverse effects on blood cells? C. Achilli,G. F. Guidetti,A. Ciana,D. Capsoni,G. MinettiBiomater. Sci., 2016,4, 1417-1421 10.1039/C6BM00374E
- [2] Examination of the hydrogen-bonding networks in small water clusters (n = 2–5, 13, 17) using absolutely localized molecular orbital energy decomposition analysis? Erika A. Cobar,Paul R. Horn,Robert G. Bergman,Martin Head-GordonPhys. Chem. Chem. Phys., 2012,14, 15328-15339 10.1039/C2CP42522J
- [3] Emerging themes in soft matter: responsive and active soft materials Julia M. YeomansSoft Matter, 2010,6, 703-704 10.1039/C000662A
- [4] Embedding cyclic nitrone in mesoporous silica particles for EPR spin trapping of superoxide and other radicals? Eric Besson,Stéphane Gastaldi,Emily Bloch,Selma Aslan,Hakim Karoui,Olivier Ouari,Micael HardyAnalyst, 2019,144, 4194-4203 10.1039/C9AN00468H
- [5] Excimer emission and magnetoluminescence of radical-based zinc(ii) complexes doped in host crystals? Shojiro Kimura,Tetsuro KusamotoChem. Commun., 2020,56, 11195-11198 10.1039/D0CC04830E
- [6] Fe3O4 nanosphere@microporous organic networks: enhanced anode performances in lithium ion batteries through carbonization? Byungho Lim,Jaewon Jin,Jin Yoo,Seung Yong Han,Kyeongyeol Kim,Sungah Kang,Nojin Park,Sang Moon Lee,Hae Jin Kim,Seung Uk SonChem. Commun., 2014,50, 7723-7726 10.1039/C4CC02068E
- [7] Fe3O4/PEG-SO3H as a heterogeneous and magnetically-recyclable nanocatalyst for the oxidation of sulfides to sulfones or sulfoxides Saeideh Mirfakhraei,Malak Hekmati,Fereshteh Hosseini Eshbala,Hojat VeisiNew J. Chem., 2018,42, 1757-1761 10.1039/C7NJ02513K
- [8] Evolution of dealloying induced strain in nanoporous gold crystals? Ross Harder,David C. Dunand,Ian McNultyNanoscale, 2017,9, 5686-5693 10.1039/C6NR09635B
- [9] Exciting clusters, what does off-resonance actually mean?? Goonay Yousefalizadeh,Shideh Ahmadi,Nicholas J. Mosey,Kevin G. StamplecoskieNanoscale, 2021,13, 242-252 10.1039/D0NR06493A
- [10] Excited state characterization of carbonyl containing carotenoids: a comparison between single and multireference descriptions? Riccardo Spezia,Stefan Knecht,Benedetta MennucciPhys. Chem. Chem. Phys., 2017,19, 17156-17166 10.1039/C7CP02941A
Journal Name:Polymer Chemistry
research_products
-
CAS no.: 89640-58-4