Plasmon-enhanced fluorescence in gold nanorod-quantum dot coupled systems

buir.contributor.authorKelestemur, Yusuf
buir.contributor.authorDemir, Hilmi Volkan
buir.contributor.orcidDemir, Hilmi Volkan|0000-0003-1793-112X
dc.citation.epage105201-10en_US
dc.citation.issueNumber10en_US
dc.citation.spage105201-1en_US
dc.citation.volumeNumber31en_US
dc.contributor.authorTrotsiuk, L.
dc.contributor.authorMuravitskaya, A.
dc.contributor.authorKulakovich, O.
dc.contributor.authorGuzatov, D.
dc.contributor.authorRamanenka, A.
dc.contributor.authorKelestemur, Yusuf
dc.contributor.authorDemir, Hilmi Volkan
dc.contributor.authorGaponenko, S.
dc.date.accessioned2021-03-04T08:53:43Z
dc.date.available2021-03-04T08:53:43Z
dc.date.issued2020
dc.departmentDepartment of Electrical and Electronics Engineeringen_US
dc.departmentDepartment of Physicsen_US
dc.departmentInstitute of Materials Science and Nanotechnology (UNAM)en_US
dc.description.abstractPlasmon–exciton coupling is of great importance to many optical devices and applications. One of the coupling manifestations is plasmon-enhanced fluorescence. Although this effect is demonstrated in numerous experimental and theoretical works, there are different particle shapes for which this effect is not fully investigated. In this work electrostatic complexes of gold nanorods and CdSe/CdZnS quantum dots were studied. Double-resonant gold nanorods have an advantage of the simultaneous enhancement of the absorption and emission when the plasmon bands match the excitation and fluorescence wavelengths of an emitter. A relationship between the concentration of quantum dots in the complexes and the enhancement factor was established. It was demonstrated that the enhancement factor is inversely proportional to the concentration of quantum dots. The maximal fluorescence enhancement by 10.8 times was observed in the complex with the smallest relative concentration of 2.5 quantum dots per rod and approximately 5 nm distance between them. Moreover, the influence of quantum dot location on the gold nanorod surface plays an important role. Theoretical study and experimental data indicate that only the position near the nanorod ends provides the enhancement. At the same time, the localization of quantum dots on the sides of the nanorods leads to the fluorescence quenching.en_US
dc.description.provenanceSubmitted by Zeynep Aykut (zeynepay@bilkent.edu.tr) on 2021-03-04T08:53:43Z No. of bitstreams: 1 Plasmon_enhanced_fluorescence_in_gold_nanorod_quantum_dot_coupled_systems.pdf: 1259898 bytes, checksum: 95e2ff62c14c8529ae8bc93a1e630933 (MD5)en
dc.description.provenanceMade available in DSpace on 2021-03-04T08:53:43Z (GMT). No. of bitstreams: 1 Plasmon_enhanced_fluorescence_in_gold_nanorod_quantum_dot_coupled_systems.pdf: 1259898 bytes, checksum: 95e2ff62c14c8529ae8bc93a1e630933 (MD5) Previous issue date: 2020en
dc.identifier.doi10.1088/1361-6528/ab5a0een_US
dc.identifier.issn0957-4484
dc.identifier.urihttp://hdl.handle.net/11693/75773
dc.language.isoEnglishen_US
dc.publisherInstitute of Physics Publishingen_US
dc.relation.isversionofhttps://dx.doi.org/10.1088/1361-6528/ab5a0een_US
dc.source.titleNanotechnologyen_US
dc.subjectPlasmon–exciton couplingen_US
dc.subjectGold nanorodsen_US
dc.subjectGold nanorod-quantum dot complexesen_US
dc.subjectPlasmon-enhanced fluorescenceen_US
dc.titlePlasmon-enhanced fluorescence in gold nanorod-quantum dot coupled systemsen_US
dc.typeArticleen_US

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