A High-Mobility Electron-Transport Polymer with Broad Absorption and Its Use in Field-Effect Transistors and All-Polymer Solar Cells - Concepedia

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A High-Mobility Electron-Transport Polymer with Broad Absorption and Its Use in Field-Effect Transistors and All-Polymer Solar Cells

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21

References

2007

Year

Xiaowei Zhan, Zhan’ao Tan, Benoît Domercq, Zesheng An, Xuan Zhang, Stephen Barlow, Yongfang Li, Daoben Zhu, Bernard Kippelen, Seth R. Marder

Journal of the American Chemical Society

EngineeringField-effect TransistorsOrganic ElectronicsDithienothiophene UnitsOrganic Solar CellPhotovoltaic DevicesChemistryPhotovoltaicsConducting PolymerElectronic DevicesSolar Cell StructuresBroad AbsorptionPolymer ChemistryElectron-transport PolymerElectrical EngineeringSolar PowerHigh-mobility Electron-transport PolymerElectronic MaterialsSemiconducting PolymerPolymer ScienceApplied PhysicsConjugated PolymerElectron MobilitiesCharge Carrier MobilitySolar CellsSolar Cell Materials

Abstract

An electron-transport polymer with good solution processibility, excellent thermal stability, and high electron affinity based on alternating perylene diimide and dithienothiophene units has been synthesized. Electron mobilities as high as 1.3 × 10-2 cm2 V-1 s-1 have been measured in field-effect transistor geometry. The polymer shows broad absorptions throughout the visible and extending into the near-IR. A power conversion efficiency of over 1%, under simulated AM 1.5, 100 mW/cm2, was measured for a single-layer solar cell using this polymer as an acceptor and a polythiophene derivative as a donor.

References

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