Indolo-naphthyridine-6,13-dione Thiophene Building Block for Conjugated Polymer Electronics: Molecular Origin of Ultrahigh n‑Type Mobility

Herein, we present the synthesis and characterization of four conjugated polymers containing a novel chromophore for organic electronics based on an indigoid structure. These polymers exhibit extremely small band gaps of ∼1.2 eV, impressive crystallinity, and extremely high n-type mobility exceeding...

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Veröffentlicht in:Chemistry of materials 2016-11, Vol.28 (22), p.8366-8378
Hauptverfasser: Fallon, Kealan J, Wijeyasinghe, Nilushi, Manley, Eric F, Dimitrov, Stoichko D, Yousaf, Syeda A, Ashraf, Raja S, Duffy, Warren, Guilbert, Anne A. Y, Freeman, David M. E, Al-Hashimi, Mohammed, Nelson, Jenny, Durrant, James R, Chen, Lin X, McCulloch, Iain, Marks, Tobin J, Clarke, Tracey M, Anthopoulos, Thomas D, Bronstein, Hugo
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Sprache:eng
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Zusammenfassung:Herein, we present the synthesis and characterization of four conjugated polymers containing a novel chromophore for organic electronics based on an indigoid structure. These polymers exhibit extremely small band gaps of ∼1.2 eV, impressive crystallinity, and extremely high n-type mobility exceeding 3 cm2 V s–1. The n-type charge carrier mobility can be correlated with the remarkably high crystallinity along the polymer backbone having a correlation length in excess of 20 nm. Theoretical analysis reveals that the novel polymers have highly rigid nonplanar geometries demonstrating that backbone planarity is not a prerequisite for either narrow band gap materials or ultrahigh mobilities. Furthermore, the variation in backbone crystallinity is dependent on the choice of comonomer. OPV device efficiencies up to 4.1% and charge photogeneration up to 1000 nm are demonstrated, highlighting the potential of this novel chromophore class in high-performance organic electronics.
ISSN:0897-4756
1520-5002
DOI:10.1021/acs.chemmater.6b03671