Department of Chemical Physics and Optics,
Faculty of Mathematics and Physics,
Department of Chemical Physics and Optics, Faculty of Mathematics and Physics
Jan Valenta is professor of quantum optics and optoelectronics in the Department of Chemical Physics and Optics, Faculty of Mathematics & Physics, Charles University, Prague. His Nanoscopy group is working on development of advanced spectroscopy methods and their applications to various materials, especially nanostructured (quantum dots, nanowires) as well as bulk semiconductors (Si, SiC, ZnO etc.). His students are growing various nanomaterials: gold nanorods and assemblies, perovskites, Si nanocrystals etc.
Jan spent his postdoctoral stays in the Group of Non-linear Optics and Optoelectronics, CNRS - U. Louis Pasteur in Strasbourg (Prof. Bernd Hönerlage) and at Royal Institute of Technology, Stockholm – Kista (Prof. Jan Linnros). He worked also in the University of South Bohemia, Budweiss; Institute of Physics, Czech Academy of Sciences and he was visiting professor in the Institute of Advanced Energy, Kyoto University. He was involved in number of national and international projects, recently collaborating with Freiburg University, Kobe University or Oslo University.
Janʼs professional interests include: Micro-spectroscopy and single molecule (nano-object) spectroscopy. Photoluminescence emission and excitation spectroscopy, electroluminescence, pump-and-probe techniques, spectral hole-burning. Absolutely calibrated spectroscopy, external and internal quantum yield, absorption cross-section measurements etc. Investigation of mechanisms of photoluminescence, excitonic and multiexcitonic phenomena, dynamics of photo-created carriers and quantum confinement effects. Nanostructured materials – semiconductors, photonic structures (epitaxial layers and nanocrystals of II-VI, III-V and I-VII semiconductors and Si-based materials). Bio-interaction of nanomaterials, fluorescent probes for bio-imaging.
Coexistence of 1D and quasi-0D photoluminescence from single silicon nanowires.
Nano letters Jul, 2011 | Pubmed ID: 21711002
Real-time luminescence microspectroscopy monitoring of singlet oxygen in individual cells.
Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology Aug, 2014 | Pubmed ID: 24954013
Detection of Sugars via Chirality Induced in Europium(III) Compounds.
Analytical chemistry 09, 2016 | Pubmed ID: 27525502
Boron-Incorporating Silicon Nanocrystals Embedded in SiO: Absence of Free Carriers vs. B-Induced Defects.
Scientific reports 08, 2017 | Pubmed ID: 28827565
Changes of the absorption cross section of Si nanocrystals with temperature and distance.
Beilstein journal of nanotechnology , 2017 | Pubmed ID: 29181288
Thermally stimulated exciton emission in Si nanocrystals.
Light, science & applications , 2018 | Pubmed ID: 30839625
Relations between Structural and Luminescence Properties of Novel Lanthanide Nitrate Complexes with Bis-phosphoramidate Ligands.
Inorganic chemistry May, 2019 | Pubmed ID: 30951297
Nearly perfect near-infrared luminescence efficiency of Si nanocrystals: A comprehensive quantum yield study employing the Purcell effect.
Scientific reports Aug, 2019 | Pubmed ID: 31375730
Room-Temperature Defect Qubits in Ultrasmall Nanocrystals.
The journal of physical chemistry letters Mar, 2020 | Pubmed ID: 32040330
Power-dependent photoluminescence decay kinetics of silicon nanocrystals under continuous and pulsed excitation.
Faraday discussions Feb, 2020 | Pubmed ID: 32108199
Goutam Pramanik1,
Alena Keprova1,
Jan Valenta2,
Vaclav Bocan3,
Klaudia Kvaková1,4,
Lenka Libusova3,
Petr Cigler1
1, Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences,
2Department of Chemical Physics and Optics, Faculty of Mathematics and Physics, Charles University,
3Department of Cell Biology, Faculty of Science, Charles University,
4First Faculty of Medicine, Charles University
JoVE 소개
Copyright © 2024 MyJoVE Corporation. 판권 소유