Functional, Functionalized and Advanced Nanomaterials

The main Project goal is formation and characterization of wide class of inorganic and biological nanomaterials/nanostructures with emphasis on optimisation of specific functional and functionalized systems.The Project integrates 7 topics. 1.Investigations of thin films of metals, ceramics and porous thin films with focus on effect of ion bombardment.2.Formation and characterization of nanostructures via irradiation, ceramics and metal/Si systems, analysis of thermal transport processes and interaction of ions with carbon nanostructures. 3. Investigations of electrocatalysis on nanostructured metal surfaces for reactions in fuel cells.4.Use of purified and functionalized carbon nanotubes as matrices for Maldi Tof analysis for fingerprint biomolecules, sequencing DNA with specific chirality nanotubes and formation of gene therapy precursors.5.Radiation nanoengineering of polymer based hybrid systems for biomedical application and radiolytic method of impregnation of biopolymers with noble metal nanoparticles.6.Synthesis and characterization of fullerenes derivatives for nano medical application in drug delivery systems. 7.Analysing age-related changes in microstructure and mechanical properties of bone, most recognized nanocomposite in nature and implications for fragility. Interdisciplinary strategies and integration of complementary research resources will enable the successful development of new nanomaterials and methods for applications in nanotechnology and biomedicine.