2018
DOI: 10.1039/c8tc03438a
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Electronic properties of isoindigo-based conjugated polymers bearing urea-containing and linear alkyl side chains

Abstract: A side-chain engineering study has been performed with isoindigo-based conjugated polymers to modulate their physical and electronic properties through the incorporation of urea-containing and saturated linear side chains.

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Cited by 24 publications
(26 citation statements)
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“…Hydrogen bonding (H bonding) has been widely used to tune intermolecular interactions and self‐assembly structures by considering its relative bonding strength and directionality . On the basis of this consideration, as shown in Scheme and Figure , some of us incorporated urea groups in the side chains of DPP‐based polymers P175–P177 .…”
Section: Side Chains With Heteroatoms and Functional Groupsmentioning
confidence: 99%
See 1 more Smart Citation
“…Hydrogen bonding (H bonding) has been widely used to tune intermolecular interactions and self‐assembly structures by considering its relative bonding strength and directionality . On the basis of this consideration, as shown in Scheme and Figure , some of us incorporated urea groups in the side chains of DPP‐based polymers P175–P177 .…”
Section: Side Chains With Heteroatoms and Functional Groupsmentioning
confidence: 99%
“…Rondeau‐Gagné and co‐workers introduced urea groups in the side chains of isoindigo‐based polymers P181–P183 . They show that the charge mobility enhancement is not obvious for these polymers when the contents of urea groups are low.…”
Section: Side Chains With Heteroatoms and Functional Groupsmentioning
confidence: 99%
“…108 However, designer sidechains possessing hydrogen bonding functional groups, such as amides and ureas, can accomplish more than simply imparting solubility. Hydrogen bonding sidechains can improve interchain packing, solid-state microstructure, and charge transport of both n-type and p-type conjugated polymers, [109][110][111] with amide groups especially useful given the strength of hydrogen bonding between them. [112][113][114][115] An exemplar of this design came in 2018 from Ocheje et al 116 Their family of diketopyrrolopyrrole polymers (Figure 7) possessed amide-containing aliphatic chains that participated in interchain hydrogen bonding throughout the polymer network.…”
Section: Organic Electronicsmentioning
confidence: 99%
“…Charron et al extended this strategy to isoindigo‐based conjugated polymers (Figure 5I,J). 59 The improved nanoscale morphology and the enhancement of average charge mobility observed for P22 confirm that grafting urea moieties in the side chains is an efficient strategy to elevate the performance of polymeric FETs.…”
Section: Improving Charge Mobility Of Conjugated Polymer Via H‐bondingmentioning
confidence: 85%