Programme description
Physics of Advanced Materials for Energy Processing (PAMEP) program is conducted solely in the English language with emphasis on preparing its students for their future work as scientists or in science-related areas. The subject matter of the program is closely tied to physics of new materials which currently have been applied or have its potential application in energy generation, conversion, storage and saving. The goal of this program is to equip a student with technical expertise necessary for an academic career (postgraduate degree studies) or a career in private sector corporations which strictly rely on detailed knowledge of scientific research (for instance, companies involved in research, producing or servicing advanced measuring tools and companies interacting with both science and the industry).
Example of courses
- Signal and energy processing in nanopatterned materials
- Physical properties of 1D and 2D materials and their application in low energy consuming electronic devices
- Methods of fabrication and analysis of conducting nanostructures
- Biophotovoltaic materials
- Molecular simulation of soft matter
- Introduction to Computational Studies of Electronic Structure of Nanosystems
- Magnetism, magnetic materials and magnetization dynamics
- Introduction to neutron scattering
- Liquidsin Confinement; Quasi-high pressure effects in nanopores
- Electric and thermoelectric transport at the nanoscale
- Sunlight energy conversion
Graduate competencies
Our students get familiarized not only with theories but also with experimental methods of materials research. Additionally, they participate in specialized courses exploring the advanced modern material characterization techniques (for instance: electron and atomic force microscopy, optical spectroscopy, X-ray spectroscopy, Raman spectroscopy, NMR spectroscopy, time-resolved laser spectroscopy, neutron scattering), material fabrication (for instance, lithography, thin film deposition, chemical methods) and theoretical computation or computer simulation methods applied in materials physics
Career prospects
The goal of this program is to equip a student with technical expertise necessary for an academic career (postgraduate degree studies) or a career in private sector corporations which strictly rely on detailed knowledge of scientific research (for instance, companies involved in research, producing or servicing advanced measuring tools and companies interacting with both science and the industry).