The prospects of developing improved models of eumelanin biopolymers and/or novel bioinspired functional materials/scaffolds for application in organoelectronics have incited increasing efforts toward the rational design and synthesis of 5,6-dihydroxyindole (DHI)-based -electron systems with tailored structural and electronic properties.1-3 A valuable entry to this goal has derived from the exploitation of alkynyl chemistry for the assembly of novel oligomers4,5 and the realization of -extended systems
Alkynyl routes to 5,6-dihydroxyindole-based oligomers and functionalized pi-extended scaffolds
d’Ischia M.
2011
Abstract
The prospects of developing improved models of eumelanin biopolymers and/or novel bioinspired functional materials/scaffolds for application in organoelectronics have incited increasing efforts toward the rational design and synthesis of 5,6-dihydroxyindole (DHI)-based -electron systems with tailored structural and electronic properties.1-3 A valuable entry to this goal has derived from the exploitation of alkynyl chemistry for the assembly of novel oligomers4,5 and the realization of -extended systemsFile in questo prodotto:
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