A Self-Assembled Nano Optical Switch and Transistor Based on a Rigid Conjugated Polymer, Thioacetyl-End-Functionalized Poly(<i>p</i><i>ara</i>-phenylene ethynylene) - Concepedia

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A Self-Assembled Nano Optical Switch and Transistor Based on a Rigid Conjugated Polymer, Thioacetyl-End-Functionalized Poly(<i>p</i><i>ara</i>-phenylene ethynylene)

77

Citations

31

References

2005

Year

Wenping Hu, Hiroshi Nakashima, Kazuaki Furukawa, Yoshiaki Kashimura, Katsuhiro Ajito, Yunqi Liu, Daoben Zhu, Keiichi Torimitsu

Journal of the American Chemical Society

Optical MaterialsEngineeringOrganic ElectronicsSelf-assembled TransistorOptoelectronic DevicesPolymersElectronic DevicesNanoelectronicsOptical SwitchingPolymer ChemistryThioacetyl-end-functionalized PolyElectrical EngineeringPhysicsNanotechnologyRigid Conjugated PolymerOrganic SemiconductorNanometer-scale Optical SwitchMicroelectronicsSemiconducting PolymerPolymer ScienceApplied PhysicsNano Electro Mechanical SystemNanometer-scale TransistorConjugated PolymerTechnologyOptoelectronicsOptical Devices

Abstract

A nanometer-scale optical switch and transistor were fabricated with thioacetyl-end-functionalized poly(para-phenylene ethynylene)s and Au nanogap electrodes by self-assembly. With photoirradiation, the switch can be switched on/off quickly with a switching ratio as high as 1000. Moreover, the device works well as a p-type transistor. With an increase in gate bias, strong conductance oscillation was observed in this self-assembled transistor (under low temperature 147 K), which is very likely due to single-electron charging oscillations arising from electron tunneling through the nanometer-scale transistor.

References

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