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Solution-Processable, Crystalline π-Conjugated Two-Dimensional Polymers with High Charge Carrier Mobility
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SYSNO ASEP 0531415 Document Type J - Journal Article R&D Document Type Journal Article Subsidiary J Článek ve WOS Title Solution-Processable, Crystalline π-Conjugated Two-Dimensional Polymers with High Charge Carrier Mobility Author(s) Jhulki, S. (KR)
Hwang, I. C. (KR)
Haider, Golam (UFCH-W) ORCID, RID
Park, J. (KR)
Park, J. Y. (KR)
Lee, Y. (KR)
Hwang, W. (KR)
Dar, A. A. (KR)
Dhara, B. (KR)
Lee, S. H. (KR)
Kim, J. (KR)
Koo, J. Y. (KR)
Jo, M. H. (KR)
Hwang, C. C. (KR)
Jung, Y. H. (KR)
Park, Y. (KR)
Kataria, M. (TW)
Chen, Y. F. (TW)
Jhi, S. H. (KR)
Baik, M. H. (KR)
Baek, K. (KR)
Kim, K. (KR)Source Title Chem. - : Cell Press - ISSN 2451-9294
Roč. 6, č. 8 (2020), s. 2035-2045Number of pages 11 s. Language eng - English Country US - United States Keywords conductivity ; conjugated two-dimensional polymer ; covalent self-assembly ; high charge carrier mobility ; long-range order ; photodetection ; SDG7: Affordable and clean energy ; SDG9: Industry, innovation, and infrastructure ; solution processability Subject RIV CF - Physical ; Theoretical Chemistry OECD category Physical chemistry R&D Projects EF16_027/0008355 GA MŠMT - Ministry of Education, Youth and Sports (MEYS) Method of publishing Limited access Institutional support UFCH-W - RVO:61388955 UT WOS 000558679600018 EID SCOPUS 85087750519 DOI 10.1016/j.chempr.2020.05.026 Annotation Ultrathin π-conjugated two-dimensional (2D) polymers (C2P) have the potential to revolutionize semiconductor technologies because of their predicted high carrier transport attributes. Bulk 2D polymers, also called covalent organic frameworks, are generally unprocessable, and their exfoliation to ultrathin C2Ps has not been realized. We present a rational bottom-up design strategy to access ultrathin C2Ps with high crystallinity in solution by choosing appropriate monomers, linkage chemistry, and reaction conditions. The C2Ps exhibit high hole mobilities and allow broadband photodetection with impressive photoresponsivities. Workplace J. Heyrovsky Institute of Physical Chemistry Contact Michaela Knapová, michaela.knapova@jh-inst.cas.cz, Tel.: 266 053 196 Year of Publishing 2021 Electronic address http://hdl.handle.net/11104/0310080
Number of the records: 1