Design and modeling of specific features of nanostructured samples

Project includes research of the specific conducting and superconducting properties of the nanostructures and their magnetic, ferroelectric and optic features in the field of diagnostics, therapy and control of biological preparations and the transportation of nanodrugs. The subject of research will be the properties and structure of photons and their interaction with the brain waves. Investigations will be directed to the design of structures with magnetic moment more durable on the temperature changes and on the increased concentration of localized ferroelectric and optical excitations for the construction of samples with better thermo-acoustic isolation properties and for the easier detection of position of drugs embedded in the hollow nanosphere and their scheduled degradation. The PET/CT produces image which represents a metabolic functional information and research will include application of the PET/CT for metabolism of malignant tumors of lungs, lymphoma, esophagus, tumors of gastrointestinal tract; head of melanoma, and for gynecological malignant tumors. Analysis will be performed visually and quantitatively. Computer supported design of materials represents research area in which will be performed research and collection of specific data regarding nanostructure samples and its organized storage in the projected database. From the collected data testing of specific properties will be conducted for the extraction of model of given structure with the best performance.