Doctoral Schools WUT

Search Engine for Promoters and Research Areas

Wykaz obszarów badawczych związanych z tagiem Fotowoltaika:

# Obszar badawczy Dziedzina naukowa
1 Unconventional methods of energy conversion and storage Solar energy, active and passive solar energy use, solar technologies Heat transfer in buildings Energy interactive building envelope, hybrid systems Renewable energy systems in buildings Solar Energy in Buildings Energy performance of buildings Thermal modernization of buildings and energy audits Smart cities Heat pumps, monovalent and bivalent energy systems, integrated multi-sources energy systems Pligeneration – trigeneration, combined heating, cooling and electric energy production Photovoltaics, integrated systems, hybrid systems –PVT – PhotoVoltaic/ Thermal Short and long term thermal energy storage Underground thermal energy storage Thermal energy storage through phase change process, application of PCM (Phase Change Materials) Energy efficiency of systems and devices Life Cycle Assesment – LCA, embodied energy
2 Research activities cover the problems of producing, modelling and characterizing active media and photonic structures for laser technology, fibre optics, integrated optoelectronics, visualization, radiation detection, technology of light, sensors and photovoltaics. A significant portion of his scientific practice consists of spectroscopic laser study of the impact of multi-ion and multiphoton processes on the optic parameters of various types of luminophores and active media. Recently, this study has focused on the research of such active media as planar or optical fibre waveguides, structures with spherical symmetry, nanocrystals as well as ceramic and hybrid materials.
3 cigs, defekty, ogniwa słoneczne, fizyka stosowana, pojemność, fotowoltaika, cienka folia, poziomy defektów, cigs cienkowarstwowe, energia, admitancja, ogniwo słoneczne, wakanse, sód, kinetyka, nauka i technika ogólna, cygara, płyny i plazmy, współczynnik wypełnienia, sód, defekty, pojemność
4

Study of carrier transport mechanisms in semiconductor layers and junctions, influence of deep defects on optoelectronic properties of materials, deep defect spectroscopy and numerical modeling in application to a) neuromorphic semiconductor devices (memristors,…) b) thin-film solar cells based on Sb2Se3 and Cu(In, Ga)(S,Se)2