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Pavel Samokhvalov
Pavel Samokhvalov
scientist, Moscow Engineering and Physics Institute
Подтвержден адрес электронной почты в домене mephi.ru - Главная страница
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Процитировано
Год
Basic principles and current trends in colloidal synthesis of highly luminescent semiconductor nanocrystals
P Samokhvalov, M Artemyev, I Nabiev
Chemistry–A European Journal 19 (5), 1534-1546, 2013
1262013
Charge transfer and separation in photoexcited quantum dot-based systems
KV Vokhmintcev, PS Samokhvalov, I Nabiev
Nano Today 11 (2), 189-211, 2016
1092016
Al-, Ga-, Mg-, or Li-doped zinc oxide nanoparticles as electron transport layers for quantum dot light-emitting diodes
A Alexandrov, M Zvaigzne, D Lypenko, I Nabiev, P Samokhvalov
Scientific reports 10 (1), 7496, 2020
952020
High quantum yield CdSe/ZnS/CdS/ZnS multishell quantum dots for biosensing and optoelectronic applications
P Linkov, V Krivenkov, I Nabiev, P Samokhvalov
Materials Today: Proceedings 3 (2), 104-108, 2016
622016
Ligand-mediated photobrightening and photodarkening of CdSe/ZnS quantum dot ensembles
V Krivenkov, P Samokhvalov, M Zvaigzne, I Martynov, A Chistyakov, ...
The Journal of Physical Chemistry C 122 (27), 15761-15771, 2018
542018
Photoluminescence quantum yield of CdSe-ZnS/CdS/ZnS core-multishell quantum dots approaches 100% due to enhancement of charge carrier confinement
P Samokhvalov, P Linkov, J Michel, M Molinari, I Nabiev
Colloidal Nanoparticles for Biomedical Applications IX 8955, 116-122, 2014
492014
Single-and two-photon imaging of human micrometastases and disseminated tumour cells with conjugates of nanobodies and quantum dots
F Ramos-Gomes, J Bode, A Sukhanova, SV Bozrova, M Saccomano, ...
Scientific Reports 8 (1), 4595, 2018
432018
Synergy of excitation enhancement and the Purcell effect for strong photoluminescence enhancement in a thin-film hybrid structure based on quantum dots and plasmon nanoparticles
V Krivenkov, P Samokhvalov, I Nabiev, YP Rakovich
The Journal of Physical Chemistry Letters 11 (19), 8018-8025, 2020
332020
Enhancement of spontaneous emission of semiconductor quantum dots inside one-dimensional porous silicon photonic crystals
D Dovzhenko, I Martynov, P Samokhvalov, E Osipov, M Lednev, ...
Optics Express 28 (15), 22705-22717, 2020
332020
Application of CdSe/ZnS/CdS/ZnS core–multishell quantum dots to modern OLED technology
S Dayneko, D Lypenko, P Linkov, N Sannikova, P Samokhvalov, ...
Materials Today: Proceedings 3 (2), 211-215, 2016
312016
Engineering of Optically Encoded Microbeads with FRET‐Free Spatially Separated Quantum‐Dot Layers for Multiplexed Assays
RS Bilan, VA Krivenkov, MA Berestovoy, AE Efimov, II Agapov, ...
ChemPhysChem 18 (8), 970-979, 2017
302017
Two-photon-induced Förster resonance energy transfer in a hybrid material engineered from quantum dots and bacteriorhodopsin
V Krivenkov, P Samokhvalov, D Solovyeva, R Bilan, A Chistyakov, ...
Optics Letters 40 (7), 1440-1443, 2015
282015
Enhancement of biexciton emission due to long-range interaction of single quantum dots and gold nanorods in a thin-film hybrid nanostructure
V Krivenkov, S Goncharov, P Samokhvalov, A Sánchez-Iglesias, ...
The journal of physical chemistry letters 10 (3), 481-486, 2019
272019
Determination of the single-exciton two-photon absorption cross sections of semiconductor nanocrystals through the measurement of saturation of their two-photon-excited …
V Krivenkov, P Samokhvalov, D Dyagileva, A Karaulov, I Nabiev
ACS photonics 7 (3), 831-836, 2020
252020
Optical properties of quantum dots with a core–multishell structure
P Linkov, P Samokhvalov, K Vokhmintsev, M Zvaigzne, VA Krivenkov, ...
JETP Letters 109, 112-115, 2019
232019
An effective method for the preparation of stable LC composites with high concentration of quantum dots
A Bobrovsky, P Samokhvalov, V Shibaev
Advanced Optical Materials 2 (12), 1167-1172, 2014
232014
Quantum dot–polymer composites based on nanoporous polypropylene films with different draw ratios
A Bobrovsky, V Shibaev, S Abramchuk, G Elyashevitch, P Samokhvalov, ...
European Polymer Journal 82, 93-101, 2016
222016
Photoconductivity of composites based on CdSe quantum dots and low-band-gap polymers
S Dayneko, P Linkov, I Martynov, A Tameev, M Tedoradze, ...
Physica E: Low-dimensional Systems and Nanostructures 79, 206-211, 2016
222016
Effect of spectral overlap and separation distance on exciton and biexciton quantum yields and radiative and nonradiative recombination rates in quantum dots near plasmon …
V Krivenkov, D Dyagileva, P Samokhvalov, I Nabiev, Y Rakovich
Annalen der Physik 532 (8), 2000236, 2020
212020
Remarkably enhanced photoelectrical efficiency of bacteriorhodopsin in quantum dot–Purple membrane complexes under two-photon excitation
V Krivenkov, P Samokhvalov, I Nabiev
Biosensors and Bioelectronics 137, 117-122, 2019
212019
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