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Jan Valenta

Showing results (1-10 of 38) with videos related to

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Faraday Discussions|February 29, 2020
Power-dependent photoluminescence decay kinetics of silicon nanocrystals under continuous and pulsed excitationMichael Greben, Jan Valenta
Nano Letters|June 30, 2011
Coexistence of 1D and quasi-0D photoluminescence from single silicon nanowiresJan Valenta, Benjamin Bruhn, Jan Linnros
Nanotechnology|November 20, 2009
Controlled fabrication of individual silicon quantum rods yielding high intensity, polarized light emissionBenjamin Bruhn, Jan Valenta, Jan Linnros
Nanotechnology|December 17, 2016
Probing silicon quantum dots by single-dot techniquesIlya Sychugov, Jan Valenta, Jan Linnros
The Journal of Chemical Physics|October 2, 2020
Two-step light conversion with quantum dots inside non-linear crystalsDmytro Vorontsov, Galyna Okrepka, Yuriy Khalavka, et al.
Physical Review Letters|March 24, 2005
Narrow luminescence linewidth of a silicon quantum dotIlya Sychugov, Robert Juhasz, Jan Valenta, et al.
Scientific Reports|July 20, 2021
Enhancing the cooling potential of photoluminescent materials through evaluation of thermal and transmission loss mechanismsSamira Garshasbi, Shujuan Huang, Jan Valenta, et al.
Nano Letters|November 24, 2011
Blinking statistics of silicon quantum dotsBenjamin Bruhn, Jan Valenta, Fatemeh Sangghaleh, et al.
ACS Nano|May 12, 2026
Photoluminescence Emitter with 100% Power Efficiency─The Key Role of the Absorption Edge in CsPbBr<sub>3</sub> Perovskite Quantum DotsJan Valenta, Michael Greben, Toranosuke Takagi, et al.
Nanoscale|November 17, 2025
Concentration-dependent photophysics of InP/ZnS quantum dots: surface still matters despite thick shellsMichael Greben, Dmytro Vorontsov, Petro Khoroshyy, et al.
Pageof 4

Showing results (1-10 of 38) with videos related to

Sort By:
Pageof 4
Faraday Discussions|February 29, 2020
Power-dependent photoluminescence decay kinetics of silicon nanocrystals under continuous and pulsed excitationMichael Greben, Jan Valenta
Nano Letters|June 30, 2011
Coexistence of 1D and quasi-0D photoluminescence from single silicon nanowiresJan Valenta, Benjamin Bruhn, Jan Linnros
Nanotechnology|November 20, 2009
Controlled fabrication of individual silicon quantum rods yielding high intensity, polarized light emissionBenjamin Bruhn, Jan Valenta, Jan Linnros
Nanotechnology|December 17, 2016
Probing silicon quantum dots by single-dot techniquesIlya Sychugov, Jan Valenta, Jan Linnros
The Journal of Chemical Physics|October 2, 2020
Two-step light conversion with quantum dots inside non-linear crystalsDmytro Vorontsov, Galyna Okrepka, Yuriy Khalavka, et al.
Physical Review Letters|March 24, 2005
Narrow luminescence linewidth of a silicon quantum dotIlya Sychugov, Robert Juhasz, Jan Valenta, et al.
Scientific Reports|July 20, 2021
Enhancing the cooling potential of photoluminescent materials through evaluation of thermal and transmission loss mechanismsSamira Garshasbi, Shujuan Huang, Jan Valenta, et al.
Nano Letters|November 24, 2011
Blinking statistics of silicon quantum dotsBenjamin Bruhn, Jan Valenta, Fatemeh Sangghaleh, et al.
ACS Nano|May 12, 2026
Photoluminescence Emitter with 100% Power Efficiency─The Key Role of the Absorption Edge in CsPbBr<sub>3</sub> Perovskite Quantum DotsJan Valenta, Michael Greben, Toranosuke Takagi, et al.
Nanoscale|November 17, 2025
Concentration-dependent photophysics of InP/ZnS quantum dots: surface still matters despite thick shellsMichael Greben, Dmytro Vorontsov, Petro Khoroshyy, et al.
Pageof 4