As of 01.11.2022
Emerging goals of nanophotonics, optoelectronics and quantum technologies for processing and storage of information require the use of new materials. The project is devoted to the study of three emerging materials with extreme two-dimensionality: colloidal semiconductor nanoplatelets, monatomic layers of transition metal dichalcogenides and two-dimensional perovskites. These materials have common properties that make them attractive for both basic science and applications. These are large exciton binding energy of several tens and hundreds of millielectronvolts, high efficiency of luminescence in the visible and near-infrared range, an important role of the surface and the possibility of its functionalization, relatively simple synthesis of structures which does not require expensive equipment. Optical experimental methods will be used to study spin-dependent phenomena and nonlinear optical properties.
Name of the project: Spin physics of two-dimensional materials: colloidal nanoplatelets, transition metal dichalcogenides and perovskites
The main goal of the project is to develop spin physics of new two-dimensional materials. Application of known and development of new optical spectroscopy methods for investigation of spin-dependent effects, spin structure and spin dynamics of charge carriers and exciton complexes. Study of the role of extreme two-dimensionality, dielectric confinement, surface in two-dimensional materials and corresponding hybrid structures. Search for effects applicable in nanophotonics, optoelectronic devices and quantum information technologies. The Laboratory of Spin Physics of Two-Dimensional Materials will be established in P.N. Lebedev Physical Institute under the supervision of D.R. Yakovlev, an expert in spin physics of semiconductor nanostructures, who has extensive experience in organizing scientific research and international scientific cooperation. The goal is to set it as a world-class scientific center.
Hosting organization
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Field of studies
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City
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Invited researcher
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Time span of the project
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Laboratory of topological quantum phenomena in superconducting systems of the Center for advanced mesoscience and nanotechnology (10)
Moscow Institute of Physics and Technology - (MIPT) |
Physics |
Dolgoprudniy |
2024-2028 |
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Laboratory for Crystal Photonics
Saint Petersburg State University - (SPbU) |
Physics |
St. Petersburg |
Stoumpos Constantinos
Greece |
2022-2024 |
Laboratory for Synchrotron Radiation Detectors
Tomsk State University - (TSU) |
Physics |
Tomsk |
Shekhtman Lev Isayevich
Russia |
2022-2024 |