Synthesis of Photoactive Materials
This division is “the beginning of the beginning” of the Lab. Therein new principles of a design of photoactive materials are being developed. These are converted into reality through the synthesis of novel and modification of well-known nanocomposites for specific applications. The resulting new materials are investigated by other Lab’s divisions.
Here, experimental research on model systems of varying complexity is in the focus. The obtained data is compared with results of computer simulations that implies close collaboration with theoretical modelling division. Such symbiosis enables deeper understanding of the processes which take place at nanoscale and the mechanisms they follow.
Research in this Division follows two directions. First one focuses on applications of novel photoactive materials in traditional sun-light based technologies (purification of water and air, production of H2 from H2O, conversion of CO2, etc.), while the second aims at creation of new technologies and prototype devices suiting properties of such new materials the best.
To facilitate experimental research members of this division perform computer simulations on periodic and cluster models of photoactive materials. The arsenal of applied methods spans from classical Newtonian mechanics to its quantum analogs in Schrodinger or else Kohn-Sham formulation.