Reproducible spatial control of a self-assembly process of fiber-forming oligothiophenes was achieved by using confinement effects. This strategy allowed the direct integration with a precise control over density, orientation, and size of supramolecular semiconducting fibers in OFET devices, demonstrating that well-aligned fibers exhibit a substantial enhancement of electrical performances. © 2012 The Royal Society of Chemistry.
Targeting ordered oligothiophene fibers with enhanced functional properties by interplay of self-assembly and wet lithography
Gentili D.
Primo
;Di Maria F.;Liscio F.;Ferlauto L.;Gazzano M.;Milita S.;Barbarella G.;Cavallini M.
Ultimo
2012
Abstract
Reproducible spatial control of a self-assembly process of fiber-forming oligothiophenes was achieved by using confinement effects. This strategy allowed the direct integration with a precise control over density, orientation, and size of supramolecular semiconducting fibers in OFET devices, demonstrating that well-aligned fibers exhibit a substantial enhancement of electrical performances. © 2012 The Royal Society of Chemistry.File in questo prodotto:
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Targeting ordered oligothiophene fibers with enhanced functional properties by interplay of self-assembly and wet lithography.pdf
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