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Article Abstract
Precise control over crystallinity and morphology of conjugated polymers (CPs) is essential for progressing organic electronics. However, manufacturing single-crystal thin films of CPs presents substantial challenges due to their complex molecular structures, distorted chain conformations, and unbalanced crystallization kinetics. In this work, we demonstrate a universal nanoconfined molecular-dipole orientating strategy to craft high-quality single-crystal thin films for a variety of CPs, spanning from traditional thiophene- and theinothiophene-based homopolymers to diketopyrrolopyrrole- (i.e., p-type) and naphthalene-based (i.e., n-type) donor-acceptor copolymers. Central to this strategy is the synergetic manipulations of molecular dipoles, π-π stackings, and alkyl-alkyl interactions of CPs within our rationally-designed spatial-electrostatic confinement capacitor, which facilitates the rotation of conjugated backbones and the alignment of π-π stackings into microscale-sized single-crystal thin films. A minimal energetic disorder of 25 meV that below the thermal fluctuation energy kT at room temperature, as well as an excellent transistor mobility of 15.5 cmVs are achieved, marking a significant step towards controllable growths of conjugated-polymer single-crystal thin films that hold a cornerstone for high-performance organic electronic devices.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11811299 | PMC |
| http://dx.doi.org/10.1038/s41467-025-56757-2 | DOI Listing |
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