Nanostructured Materials Theory-group at the Applied Magnetism Institute.
Scientic Supervisor / Contact Person
Name and Surname
César González
ORCID (link)
Researcher ID (link)
Other ID (link)
Localization & Research Area
Faculty / Institute
Faculty of Physical Science
Department
Materials physics
Research Area
Chemistry (CHE), Physics (PHY)
MSCA & ERC experience
Research group / research team hosted any MSCA fellow?
No
Research group / research team have any ERC beneficiaries?
No
Research Team & Research Topic
Research Team / Research Group Name (if any)
Theory group within the Applied Magnetism: Nanoestructured materials
Website of the Research team / Research Group / Department
Brief description of the Research Team / Research Group / Department
The Instituto de Magnetismo Aplicado (IMA) was founded in 1989 by the University Complutense of Madrid (UCM) and co-sponsored by the Spanish Railway Infrastructures Company (formerly RENFE, nowadays ADIF). It was the first University Research Institute created in Spain. IMA was founded initially as a small research center with the aim to combine basic scientific research in the field of functional magnetic materials with transfer of technology. IMA has now a large critical mass with more than 40 permanent scientists with different background, around 20 tenured scientists, in addition to one technician and three administrative personnel. This large critical mass ensures the stability of the center and the resources and human power required to develop excellent scientific research and technology transfer activities. In order to give a response to this new situation that overpasses the field of magnetism, the Unit of Functional Materials of UCM (UMAFUS-UCM) was created. With this new structure, IMA is one of the leader research centers for functional materials in Europe.
Research lines / projects proposed
* Theoretical simulations based on Density Functional Theory (DFT).
* Simulations of Electronic transport in nanostructured materials: atomic/molecular contacts,
* Scanning Tunneling Microscopy,
* Ballistic Electron Emission Microscopy and spin valves.
* Electronic properties on defective 2D materials: atomic contamination, molecular adsorption and grain boundaries.
* Novel Magnetic Alloyed Carbides nanoparticles immersed in graphene-based matrix.
* DFT simulations of resistant materials: point defects and extended defects.
* Simulations of Electronic transport in nanostructured materials: atomic/molecular contacts,
* Scanning Tunneling Microscopy,
* Ballistic Electron Emission Microscopy and spin valves.
* Electronic properties on defective 2D materials: atomic contamination, molecular adsorption and grain boundaries.
* Novel Magnetic Alloyed Carbides nanoparticles immersed in graphene-based matrix.
* DFT simulations of resistant materials: point defects and extended defects.
Key words
Application requirements
Professional Experience & Documents
* Great knowledge in the Linux environment.
* Some notions on programing (phyton, Fortran, bash")
* Deep knowledge in Condensed Matter Physics
* Great experience with Density Functional Theory codes and the application to electronic, energetic and structural analysis.
* Some notions on programing (phyton, Fortran, bash")
* Deep knowledge in Condensed Matter Physics
* Great experience with Density Functional Theory codes and the application to electronic, energetic and structural analysis.
One Page Proposal
You can attach the 'One Page Proposal' to enhance the attractiveness of your application. Supervisors usually appreciate it. Please take into account your background and the information provided in Research Team & Research Topic section to fill in it.
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