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UNIVERSITATEA DIN BUCUREŞTI
FACULTATEA DE FIZICĂ
Condensed Matter Physics
In the direction of doctoral studies Condensed Matter Physics you have the opportunity to enlarge your knowledge regarding specific concepts in Solid State Physics as well as the synthesis and characterization techniques used in this domain. In addition, you can be involved in a state-of-the-art research activity in the Faculty of Physics and the institutes on the Măgurele platform, in particular in the National research and Development Institute of Materials Physics and the National Institute for Laser, Plasma and Radiation Physics.
You will be guided to perform scientific research in a wide range of areas, such as:
- synthesis and characterization of organic and inorganic thin layers and their applications, in particular in electronic devices, including transparent electronics, as well as in photovoltaic devices, including solar cells for spatial applications (prof.dr. Ştefan ANTOHE);
- synthesis and characterization of several types of thin layers, including biocompatible materials, and their applications, respectively the study of the interactions of these films with ionizing radiations and high-power lasers (C.Ş.I dr. Valentin CRĂCIUN);
- synthesis and characterization of nano-, bio- and metamaterials using laser technologies, respectively the use of laser techniques for processing, including surface nanostructuring, with applications in biology, medicine, nano- and optoelectronics, chemistry, or metallurgy (C.Ş.I dr. Ion MIHĂILESCU, C.Ş.I dr. Enikö GYÖRGY);
- synthesis and study of electric transport properties in films and multilayer structures based on SiGeSn nanoparticles/nanocrystals, respectively ferroelectric HfO2, with applications in optoelectronics, charge storage, in environment and biomedicine (C.Ş.I dr. Lidia Magdalena CIUREA); correlation of the properties of these structures with their morphology and structure (C.Ş.I dr. Valentin TEODORESCU);
- synthesis and characterization of some materials/structures, including at nanometric scale, with applications in optoelectronics and in environment, including renewable energies /catalysis/ nuclear reactors (prof.dr. Victor CIUPINĂ);
- the study of the influence of point defects on the properties of some (nano)crystalline isolators and semiconductors (C.Ş.I dr. Sergiu NISTOR);
- spectroscopy of rare-earth ions in laser crystals and luminescent materials, respectively luminescent processes in nanocrystalline materials doped with rare-earth ions (C.Ş.I dr. Vasile Şerban GEORGESCU);
- crystals growth and dielectric spectroscopy of polar/ferroelectric materials (prof.dr. Horia ALEXANDRU);
- preparation and characterization of some materials, including ferroelectric and multiferroic materials, and complex heterostructures with applications in electronics, sensors, energy conversion (C.Ş.I dr. Lucian PINTILIE); the study of the interfaces and surfaces of these materials (C.Ş.I dr. Cristian Mihail TEODORESCU):
- synthesis and study of the properties of molecular magnets and magnetic nanostructures, including thin film magnetic nanostructures, multilayers and nanocomposites in metallic/ semiconductor/ polymeric/ liquid matrices (C.Ş.I dr. Victor KUNCSER);
- low-temperature condensed matter physics /superconductivity, including vortex dynamics in superconductors (C.Ş.I dr. Adrian CRIŞAN, C.Ş.I dr. Lucică MIU);
- theoretical modelling of charge transport in low-dimensional structures, respectively of the propagation of electromagnetic radiation through nanostructures and at their interfaces (prof.dr. Daniela DRAGOMAN)
- numerical modeling of charge and spin transport in nano- and optoelectronic devices, ab initio and molecular dynamics simulations, applications of machine learning techniques and of neural networks (prof.dr. George Alexandru NEMNEŞ)
More information on the research areas in which you can be introduced by the doctoral supervisors in this direction of studies, respectively their contact data, can be found at aici
The coordinator of the direction of doctoral studies Condensed Matter Physics is prof.dr. Ştefan ANTOHE
Condensed Matter Physics
In the direction of doctoral studies Condensed Matter Physics you have the opportunity to enlarge your knowledge regarding concepts specific to Solid State Physics as well as several synthesis and characterization techniques used in this domain. You will be also involved in top-level research activities in the Faculty of Physics and in institutes on the Măgurele Platform, in particular in the National R&D Institute of Materials Physics and the National R&D Institute for Laser, Plasma and Radiation Physics.
You will be supervised in a wide range of research themes, such as:
- synthesis and characterization of organic and inorganic thin films and their applications, in particular in electronic devices, including transparent electronics, as well as in photovoltaic devices, including solar cells for space applications (prof.dr. Ştefan ANTOHE);
- synthesis and characterization of several types of thin films, including biocompatible materials, and their applications, as well as the study of the interactions of these films with ionizing radiations and high-power lasers (C.Ş.I dr. Valentin CRĂCIUN);
- synthesis and characterization of nano-, bio- and metamaterials using laser technologies, as well as the use of laser techniques for processing, including nanostructuring of surfaces, with applications in biology, medicine, nano- and optoelectronics, chemistry, or metallurgy (C.Ş.I dr. Ion MIHĂILESCU, C.Ş.I dr. Enikö GYÖRGY);
- synthesis and electrical transport studies of films and multilayer structures based on nanoparticles/nanocrystals of the SiGeSn system as well as on ferroelectric HfO2, for optoelectronic, charge storage, environmental and biomedical applications (C.Ş.I dr. Lidia Magdalena CIUREA); correlations of the properties of these structures with morphological and structural characterizations (C.Ş.I dr. Valentin TEODORESCU);
- synthesis and characterization of some materials/structures, including nanostructures, with optoelectronic and environmental applications, including applications in renewable energies/catalysis/nuclear reactors (prof.dr. Victor CIUPINĂ);
- studies of the influence of point-like defects on the properties of some (nano)crystalline isolators and semiconductors (C.Ş.I dr. Sergiu NISTOR);
- rare-earth ion spectroscopy in laser crystals and luminescent materials, luminescence processes in nanocrystalline materials doped with rare-earth ions (C.Ş.I dr. Vasile Şerban GEORGESCU);
- crystal growth and dielectric spectroscopy of polar/ferroelectric materials (prof.dr. Horia ALEXANDRU);
- preparation and characterization of some materials, including ferroelectric and multiferroic materials, and of complex heterostructures with applications in electronics, sensors, energy conversion (C.Ş.I dr. Lucian PINTILIE); the study of interfaces and surfaces of these materials (C.Ş.I dr. Cristian Mihail TEODORESCU);
- synthesis and study of the properties of molecular magnets and magnetic nanostructures, including nanocomposites, thin layers and multilayered nanostructures in metallic/semiconducting/polymer/liquid matrices (C.Ş.I dr. Victor KUNCSER);
- condensed matter physics at low temperatures/superconductivity, including vortex dynamics in superconductors (C.Ş.I dr. Adrian CRIŞAN, C.Ş.I dr. Lucică MIU);
- theoretical study of charge transport in low-dimensional structures, investigations of the propagation of the electromagnetic radiation through nanostructures and at their interfaces (prof.dr. Daniela DRAGOMAN);
- numerical modeling of charge and spin transport in nano- and optoelectronic devices, ab initio and molecular dynamics simulations, applications of machine learning techniques and of neural networks (conf.dr. George Alexandru NEMNEŞ)
More information on the research areas in which you can be supervised by doctoral supervisors in this direction of studies, as well as their contact data, can be found here
The coordinator of the direction of doctoral studies Condensed Matter Physics is prof.dr. Ştefan ANTOHE
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