Abstract
A new series of π-conjugated oligomers based on the 4,4 dihexyl-4H-cyclopenta[2,1-b:3,4-b']dithiophene vinylene repeating unit has been prepared and characterized by X-ray, electrochemical, spectroscopic (UV-Vis absorption, emission and Raman) and density functional theory methods. The oligomers in their neutral, oxidized and reduced forms have been investigated. The neutral compounds show a longer mean conjugation length than oligothiophenes and oligothiophene-vinylenes and display very rich redox chemistry with the stabilization of polycationic states of which the radical cations and dications are strong NIR absorbers, the latter displaying singlet diradicaloid character. An interesting complementarity between the sequence of aromatic-quinoidal structural segments in the radical cations and dications has been described and interpreted. Two derivatives with the 4,4 dihexyl-4H-cyclopenta[2,1-b:3,4-b']dithiophene vinylene unit, disubstituted either with electron donor, bis(triaryl amino) groups, or acceptors bis(dicyano-methylene) caps enforcing a quinoidal structure in the dithiophene-vinylene bridge, have been also synthesized and characterized. The radical cation of the triarylamine compound and the radical anion of the tetracyano compound similarly display hole and electron charge localization, or confinement, in the nitrogen and dicyano surrounding parts, or class II mixed valence systems, while their dication and dianion species, conversely, are open-shell diradical (i.e., polaron pair) and closed-shell (i.e., bipolaron), respectively. The preparation of these new π-conjugated oligomers gives way to the realization of compounds with new electronic properties and unique structures potentially exploitable in organic electronics.
Highlights
Oligothiophenes (OTs) represent the prototypical molecules where, due to the weak aromaticity of thiophene, p-electron conjugation is sizeable and very appropriate for the implementation as semiconductor materials in optoelectronic applications.[1]
In the eld of organic electronics, where new materials with new/enhanced opto-electronic properties for device applications are desired, we here explore another combination of the thiophene/vinylene couple in which a 4,4-dihexyl-4H-cyclopenta [2,1-b:3,4-b0]dithiophene (CPDT) unit replaces the thiophene in OTVs to form CPDTV oligomers.[3,4,5,6]
The CPDT unit is a versatile building block because of its electronic behavior duality: on one hand, the two cis-connected thiophenes allows CPDT to behave as an electron donor and it has been used in p-electron donor–acceptor conjugated copolymers.[5]
Summary
Oligothiophenes (OTs) represent the prototypical molecules where, due to the weak aromaticity of thiophene, p-electron conjugation is sizeable and very appropriate for the implementation as semiconductor materials in optoelectronic applications.[1]. For class III, the band might show a vibronic component and a cut-off on the low-energy side, while class II systems exhibit Gaussian-shape bands without ne structure.[16,17] From this point of view, DA(2CPDTV)c+ could be described as a class II mixed valence compound where the positive charge in the ground electronic state is mainly residing in one nitrogen partially stabilized towards the bridge.
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