As of 01.11.2022
Name of the project: Design and research of new single-molecule/single-ion magnets and switchable molecular magnetic systems that are prospective for applications as safe qubits, monomoleqular multiferroics, molecular quantum cellular automata and nanoelement for spintronics
Research directions:
- Development and research of new single-molecule/single-ion magnets and switchable molecular magnetic systems, single-molecule multiferroics, molecular quantum cellular automates and nanoelements for spintronics
- Search of highly efficient methods to synthesize single-molecule/single-ion magnets and switchable molecular magnetic systems
- Theoretical modeling a research of the main mechanisms that are the basis of single-molecule/single-ion magnets and switchable molecular magnetic systems and qualities of synthesized complexes
- Developing criteria for rational design of new single-molecule/single-ion magnets and switchable molecular magnetic systems suitable for practical application in molecular electronics and spintronics
Project objective: Creating a new generation of single ion magnets and prospective molecular magnetic systems and finding main mechanisms that lie in the basis of single-molecule/single-ion magnetic and switchable molecular magnetic qualities
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 for Ultra Wide-band Gap Semiconductors
National University of Science and Technology MISIS - (NUST MISIS) |
Material Technology |
Moscow |
Кузнецов Андрей Юрьевич
Sweden |
2022-2024 |
Laboratory for Ion-selective membranes
M.V.Lomonosov Moscow State University - (MSU) |
Material Technology |
Moscow |
Ameduri Bruno Michel
France |
2022-2024 |
Neuroelectronics and Memristive Nanomaterials Research Laboratory (NEUROMENA)
Southern Federal University - (SFedU) |
Material Technology |
Taganrog |
Park Bae Ho
Korea |
2022-2024 |