Focused ion beam and field-emission microscopy of metallic filaments in memory devices based on thin films of an ambipolar organic compound consisting of oxadiazole, carbazole, and fluorene units - Concepedia

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Focused ion beam and field-emission microscopy of metallic filaments in memory devices based on thin films of an ambipolar organic compound consisting of oxadiazole, carbazole, and fluorene units

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21

Citations

17

References

2013

Year

Christopher Pearson, Leon Bowen, Myung-Won Lee, Alison L. Fisher, Katharine E. Linton, Martin R. Bryce, M.C. Petty

Applied Physics Letters

EngineeringOrganic ElectronicsMicroscopyEmerging Memory TechnologyOptoelectronic DevicesChemistryElectronic DevicesElectron MicroscopyMicroscopy MethodFluorene UnitsMemory DevicesMemory DeviceMaterials ScienceNanotechnologyElectronic MemoryOrganic SemiconductorField-emission MicroscopyMicroanalysisElectronic MaterialsMicrofabricationScanning Probe MicroscopyApplied PhysicsMetallic FilamentsSemiconductor MemoryThin FilmsResistive Random-access MemoryAmbipolar Compound Consisting

Abstract

We report on the mechanism of operation of organic thin film resistive memory architectures based on an ambipolar compound consisting of oxadiazole, carbazole, and fluorene units. Cross-sections of the devices have been imaged by electron microscopy both before and after applying a voltage. The micrographs reveal the growth of filaments, with diameters of 50 nm–100 nm, on the metal cathode. We suggest that these are formed by the drift of aluminium ions from the anode and are responsible for the observed switching and negative differential resistance phenomena in the memory devices.

References

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