Scientific Projects
Russian Foundation for Basic Research
- Microstructures in solution and thin films of associating polyelectrolytes (Project 01-03-32672, director: Prof. A.R .Khokhlov)
- Selforganization of hydrophobically modified polyelectrolytes in aqueous solution and on interphase boundary (Project 02-03-33259, director: Prof. O.E. Philippova)
- Nanostructures in solutions of associating comb copolymer: theory and experimental investigation (Project 02-03-33213, director: Dr. V.V. Vasilevskaya (INEOS RAS))
- Nanostructure formation during adsorption of copolymers: theory and computer simulation (Project 00-03-33107, director: Dr. E.Yu.Kramarenko)
- Polymeric hydrogels with controlled morphology and swelling (Project 00-03-33108, director: Dr. E.E. Makhaeva)
- Synthesis of condensation polymers in supercritical carbon dioxide (Project 02-03-32089, director: Dr. E.E. Said-Galiyev (INEOS RAS))
- Scanning probe microscopy of polymeric molecules and their complexes with surfactants in supercritical carbon dioxide (Project 01-03-32766, director: Dr. M.O. Gallyamov)
NATO Science for Peace Programme
- SfP-973925 Polymer Gels, Development of New Fiber Materials from Reversible (Associative) Polymer Gels
- SfP-974173 Colloidal Catalysts, Colloidal Catalysts for Synthesis of Important Vitamins and Fragrant Substances: New Approach, New Advantages
- SfP-977998 Elastic Materials, Novel Highly Elastic Magnetic Materials for Dampers and Seals
Wolfgang Paul Award Project
INTAS Programme
- Project 00-243 Polymeric nanomaterials: conventional and intelligent gels involving physical networks of polyelectrolyte polysaccharides and their interactions with surfactants, proteins and organic molecules
- Project 00-445 Architectures of molecular rods in a polymer network
- Project 00-500 New Approaches to the Studies of Associating Ionic Polysaccharides in Solution and at Interface
- Project 00-57 New Generation of Smart Polymers and Polymeric Materials for Biotechnology
- Project 01-0172 Dynamic processes in amorphous glassy polymers and their effect on gas transport: theoretical, experimental and simulation studies
- Project 01-607 Sequence design of bioinspired copolymers with functionality on the nano-metre scale