Publication | Closed Access
Synergistic Concurrent Enhancement of Charge Generation, Dissociation, and Transport in Organic Solar Cells with Plasmonic Metal–Carbon Nanotube Hybrids
95
Citations
60
References
2014
Year
EngineeringOrganic ElectronicsOrganic Solar CellPlasmon-enhanced PhotovoltaicsChemistryChemical EngineeringCarbon-based MaterialNanoelectronicsCharge SeparationPlasmonic NanoparticlesPlasmonic NanostructuresElectrical EngineeringSynergistic Concurrent EnhancementAu NanoparticlesOrganic Solar CellsCharge GenerationOrganic Charge-transfer CompoundNanomaterialsSolar Cell Materials
Plasmonic nanostructures are synthesized by decorating B- or N-doped carbon nanotubes (CNTs) with Au nanoparticles. While the plasmonic nanoparticles promote exciton generation and dissociation, the B- and N-doped CNTs enable charge-selective transport enhancement in the organic active layer. Such concurrent enhancements of all the principal energy-harvesting steps improve the device efficiency up to 9.98% for organic single-junction solar cells.
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