Lifetimes of the Vibrational States of DNA Molecules in Functionalized 
Complexes of Semiconductor Quantum Dots

Bayramov, F. B.; Poloskin, E. D.; Chernev, A. L.; Toporov, V. V.; Dubina, M. V.; Sprung, Christoph; Lipsanen, H. K.; Bairamov, B. Kh.

doi:10.1134/S1063785018010108

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Lifetimes of the Vibrational States of DNA Molecules in Functionalized Complexes of Semiconductor Quantum Dots

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Sprung, Christoph
Inorganic Chemistry, Fritz Haber Institute, Max Planck Society;

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Citation

Bayramov, F. B., Poloskin, E. D., Chernev, A. L., Toporov, V. V., Dubina, M. V., Sprung, C., et al. (2018). Lifetimes of the Vibrational States of DNA Molecules in Functionalized Complexes of Semiconductor Quantum Dots. Technical Physics Letters, 44(1), 70-72. doi:10.1134/S1063785018010108.

Cite as: https://hdl.handle.net/21.11116/0000-0001-1C41-7

Abstract

Results of studying nanocrystalline nc-Si/SiO₂ quantum dots (QDs) functionalized by short oligonucleotides show that complexes of isolated crystalline semiconductor QDs are unique objects for detecting the manifestation of new quantum confinement phenomena. It is established that narrow lines observed in high-resolution spectra of inelastic light scattering can be used for determining the characteristic time scale of vibrational excitations of separate nucleotide molecules and for studying structural-dynamic properties of fast oscillatory processes in biomacromolecules.