Abstract
The properties of π-conjugated oligomers and polymers are commonly controlled by side group engineering, main chain engineering, or conformational engineering. The last approach is typically limited to controlling the dihedral angle around the interring single bonds to prevent loss of π-conjugation. Here we propose a different approach to conformational engineering that involves controlling the twist of the aromatic units comprising the backbone by using a tether of varying lengths. We demonstrate this approach by synthesizing an inherently twisted building unit comprised of helically locked tethered acenes, bearing acetylene end-groups to enable backbone extension, which was applied in a series of nine helical oligomers with varying backbone length and twist. We find that the optical and electronic properties of π-conjugated systems may be determined by the additive, antagonistic, or independent effects of backbone length and twist angle. The twisted oligomers display chiral amplification, arising from the formation of secondary helical structures.
Highlights
The properties of π-conjugated oligomers and polymers are commonly controlled by side group engineering, main chain engineering, or conformational engineering
We investigate the effect on material properties of the addition of repeating anthracene units with controlled twist, to synthesize a family of twisted π-conjugated oligomers up to the trimer (1-Ant-Cn; 2-Ant-Cn; and 3-Ant-Cn; where Ant refers to the anthracene backbone and Cn indicates the length of the methylene tether, n = 4,6,8)
We introduce a methodology to control the properties of πconjugated backbones by conformational engineering of the aromatic units rather than of the interring single bond
Summary
The properties of π-conjugated oligomers and polymers are commonly controlled by side group engineering, main chain engineering, or conformational engineering. We investigate the effect on material properties of the addition of repeating anthracene units with controlled twist, to synthesize a family of twisted π-conjugated oligomers up to the trimer (1-Ant-Cn; 2-Ant-Cn; and 3-Ant-Cn; where Ant refers to the anthracene backbone and Cn indicates the length of the methylene tether, n = 4,6,8).
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