Autor: |
Yan, Yueming, Spear, Nathan J., Cummings, Adam J., Khusainova, Karina, Macdonald, Janet E., Haglund, Richard F. |
Rok vydání: |
2024 |
Předmět: |
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Druh dokumentu: |
Working Paper |
Popis: |
Heterostructures combining two or more metal and/or semiconductor nanoparticles exhibit enhanced upconversion arising from localized surface plasmon resonances (LSPRs). However, coupled plasmon-exciton systems are slowed by excitonic relaxation and metallic multi-plasmon systems are not broadly tunable. Here, we describe a heterostructure in which insulating alumina layers vary separation between CuS and Au nanoparticles, allowing experimental confirmation of the d^(-6) dependence typical of surface-dipole mediated interactions between Au and CuS plasmons, as demonstrated in Lumerical simulations. Transient-absorption spectroscopy shows faster plasmon relaxation in heterostructured Au/CuS (690 fs) than CuS nanoparticles (929 fs), signifying direct energy transfer. Moreover, coupling between the second-harmonic LSPRs of CuS and the fundamental LSPR in Au is evident in nonlinear absorption measurement. This defines a novel harmonic-induced plasmonic resonant energy transfer (HIPRET) dynamic linking the metallic Au plasmon and the broad semiconductor plasmon in CuS. This prototype for tunable, ultrafast plasmonic upconversion exemplifies a strategy for high-efficiency nonlinear nanodevices that have promising applications in photocatalysis, parametric down-conversion and biomedical imaging. |
Databáze: |
arXiv |
Externí odkaz: |
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