Sdílet
Magneto-structural properties and quantum phenomena in molecular materials
| Supervisor | |
| Research Group | Quantum Molecular Magnetism |
This topic focuses on understanding how molecular structure, symmetry, and dynamic interactions influence magnetic relaxation and quantum phenomena in molecular materials. Such materials hold great promise for next-generation data storage and quantum technologies, where controlling spin states at the molecular scale is key. The research combines state-of-the-art spectroscopic methods and theoretical modeling to uncover the fundamental mechanisms governing magnetic and quantum behavior. By establishing clear design principles for stable and efficient molecular systems, the project aims to contribute both to scientific knowledge and to the development of sustainable technological solutions. The work is carried out in close collaboration with CEITEC VUT, CEITEC MUNI, and international partners, offering candidates a stimulating environment for interdisciplinary research in molecular quantum materials.
See list of topics
- Advanced software for batch processing of correlative imaging with quantitative phase and fluorescence
- Advancing coral biomineralization studies: Real-time imaging of coral skeletogenesis using 4D X-ray microcomputed tomography
- Advancing time-resolved cryo-EM to elucidate insulin receptor inhibition mechanisms
- Atomically engineered materials for sustainable carbon-free fuels
- Development and application of novel technology and/or characterization methods
- Development of multimaterial 3D printing using the digital light processing method
- Environmental “double trouble”: Elucidating plant molecular responses to heavy metal and PFAS co-contamination
- Exploring high-frequency electrical neurostimulation beyond classical mechanisms
- Exploitation of novel functional properties of surfaces/nanostructures in nanophotonics, nanoelectronics and/or quantum technologies
- FAST-4D hiQPI: Fast, accurate, scalable time-lapse 4D holographic incoherent-light-source quantitative phase imaging
- Genetic predispositions to development of hematological malignancies
- Characterization of electrochemical double layers...
- In situ magneto-ionic control of antiferromagnetic/ferromagnetic interfaces
- Investigation of novel possibilities for targeted therapy in acute myeloid leukemia
- Long non-coding RNAs in microenvironmental interactions of B cell chronic lymphocytic leukemia
- Magnetic actuation platforms for biological environments
- Magneto-structural properties and quantum phenomena in molecular materials
- Manipulation and detection of molecular magnets at 2D van der Waals interface
- Molecular mechanisms of heat stress adaptation...
- Nanorobots for biomedical and environmental applications
- Next generation materials for flexible wearable sensors and energy storage
- Next-generation noninvasive neurostimulation technologies
- Postdoctoral researcher in structural virology
- Processing of carbide-based ceramics by upcycling ceramic waste
- Pushing thin-film deposition techniques beyond their conformality limits
- Radical-free photocrosslinkable hydrogels for 3D bioprinting
- Role of transcription factors in B-cell malignancies
- Structural changes in intrinsically disordered proteins
- The future of deep brain stimulation in Parkinson’s disease
- Transformers applications for industrial systems faults detection
- Translation control
- Tuning the bioactivity of carbon-based coatings and nanoparticles
- Unravelling microplastic fate and transport
- Upcycling of ceramic waste to produce carbide-based ceramics