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Fedorov, A. S.
Krasnov, P. O.
Visotin, M. A.
Tomilin, F. N.
Полютов, Сергей Петрович
Ågren, H.
2021-08-13T09:30:44Z
2021-08-13T09:30:44Z
2019-12
Fedorov, A. S. Charge-transfer plasmons with narrow conductive molecular bridges: A quantum-classical theory [Текст] / A. S. Fedorov, P. O. Krasnov, M. A. Visotin, F. N. Tomilin, Сергей Петрович Полютов, H. Ågren // The Journal of Chemical Physics. — 2019. — Т. 151 (№ 24).
https://aip.scitation.org/doi/10.1063/1.5131734
https://elib.sfu-kras.ru/handle/2311/142531
We analyze a new type of plasmon system arising from small metal nanoparticles linked by narrow conductive molecular bridges. In contrast to the well-known charge-transfer plasmons, the bridge in these systems consists only of a narrow conductive molecule or polymer in which the electrons move in a ballistic mode, showing quantum effects. The plasmonic system is studied by an original hybrid quantum-classical model accounting for the quantum effects, with the main parameters obtained from first-principles density functional theory simulations. We have derived a general analytical expression for the modified frequency of the plasmons and have shown that its frequency lies in the near-infrared (IR) region and strongly depends on the conductivity of the molecule, on the nanoparticle–molecule interface, and on the size of the system. As illustrated, we explored the plasmons in a system consisting of two small gold nanoparticles linked by a conjugated polyacetylene molecule terminated by sulfur atoms. It is argued that applications of this novel type of plasmon may have wide ramifications in the areas of chemical sensing and IR deep tissue imaging
Surface plasmon resonance
Plasmons
Electronic bandstructure
Time dependent density functional theory
Nanoparticles
Charge-transfer plasmons with narrow conductive molecular bridges: A quantum-classical theory
Journal Article
Journal Article Preprint
2021-08-13T09:30:44Z
10.1364/OE.28.001426
Научно-исследовательская часть
The Journal of Chemical Physics
Q1
Q2


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