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Hybrid Layers of Laterally Oriented Plasmon Silver Nanoplates and Luminescent Quantum Dots with the Effect of Resonance Energy Transfer
Abstract
A technique was developed to fabricate a new type of hybrid exciton-plasmonic nanostructures consisting of electrostatically deposited laterally oriented silver nanoplates capped with hydrophobic ZnxCuyInzS2/ZnS quantum dots layers via Langmuir—Blodgett technique. Pronounced photoluminescence quenching and significant decrease in the emission decay time indicate the development of efficient resonant energy transfer in the resulting hybrid plasmonic nanostructures. To clarify the nature of the emission from these nanostructures we propose the approach based on the comparison of polarization dependences of the emission from quantum dots atop the quartz glass and the silver nanoplates. Our data point toward the scattering by transverse surface plasmons of silver nanoplates indirectly excited through the energy transfer from quantum dots.
About the Authors
D. I. Muravsky
Research Institute for Physical Chemical Problems of the Belarusian State University
Belarus
Belarus
Minsk
P. O. Malakhovsky
Research Institute for Physical Chemical Problems of the Belarusian State University
Belarus
Belarus
Minsk
A. A. Ramanenka
B. I. Stepanov Institute of Physics of the National Academy of Sciences of Belarus
Belarus
Belarus
Minsk
M. V. Artemyev
Research Institute for Physical Chemical Problems of the Belarusian State University
Belarus
Belarus
Minsk
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Review
For citations:
Muravsky D.I., Malakhovsky P.O., Ramanenka A.A., Artemyev M.V. Hybrid Layers of Laterally Oriented Plasmon Silver Nanoplates and Luminescent Quantum Dots with the Effect of Resonance Energy Transfer. Zhurnal Prikladnoii Spektroskopii. 2024;91(3):423-430. (In Russ.)
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