(Invited) Photoluminescence Carrier Dynamics and Photon Statistics of Covalent Dopant-Induced Trap States in Single Wall Carbon Nanotubes
Doorn S, Ma X, Hartmann N, Yalcin S, Htoon H. (Invited) Photoluminescence Carrier Dynamics and Photon Statistics of Covalent Dopant-Induced Trap States in Single Wall Carbon Nanotubes. ECS Meeting Abstracts 2015, MA2015-01: 803-803. DOI: 10.1149/ma2015-01/6/803.Peer-Reviewed Original ResearchDopant sitesEmitting statesNanowire single-photon detectorsRoom temperature photonQuantum information processingNovel photon sourcesSingle-photon detectorsImportance of excitonsSingle-photon emittersNon-radiative decay pathwaysLocalization of excitonsPhotoluminescence quantum yieldPhotoluminescence decay dynamicsPhoton correlation studiesSingle-tube levelPhoton sourcesLow-temperature studiesPhoton statisticsCarrier dynamicsPhoton emittersDecay dynamicsExciton mobilityPhotoluminescence lifetimePhotoluminescence studiesElectronic structureDynamic and Steady State Optical Studies of Individual Covalent Dopant Sites in Single-Wall Carbon Nanotubes
Hartmann N, Yalcin S, Haroz E, Ma X, Htoon H, Doorn S. Dynamic and Steady State Optical Studies of Individual Covalent Dopant Sites in Single-Wall Carbon Nanotubes. ECS Meeting Abstracts 2015, MA2015-01: 805-805. DOI: 10.1149/ma2015-01/6/805.Peer-Reviewed Original ResearchSingle-wall carbon nanotubesDopant sitesCarbon nanotubesUse of SWCNTsLight-harvesting systemsWall carbon nanotubesPhotoluminescence quantum yieldAssociated functional groupsType of dopantCovalent functionalizationNon-radiative decay channelsFunctional groupsChem.Electronic structureLow-temperature studiesQuantum yieldChemical propertiesEfficient emittersEmitting statesLong PL lifetimeOptical propertiesLong single-wall carbon nanotubesDynamic optical propertiesSingle-tube levelEmission intensity