Preface. Photograph of participants. I: Modeling and computer simulation of characteristics nanosystems. Optical properties of small-radius SWNTs within a tight-binding model; V. Popov. The electronic structure of nanotubes and the topological arrangements of carbon atoms; I. Lazslo. Irradiation effect on the electron transport properties of single-walled carbon nanotube; Yu.I. Prylutskyy, et al. Calculation of the density profile of liquid located in the multi-walled carbon nanotube; D.A. Gavryushenko, et al. Small metal clusters: ab initio calculated bare clusters and models within fullerene cages; V. Gurin. II: Nanotechnology of building blocks and integrated nanosystems. Nanoparticle reactions on chip; M. Kohler, et al. Electrochemical charging of nanocarbons: fullerenes, nanotubes, peapods; L. Kavan, L. Dunsch. Nano-encapsulation of fullerene in dendrimers; Y. Rio, et al. Irradiation-controlled adsorption and organisation of biomolecules on surfaces: from the nanometric to the mesoscopic level; G. Marletta, C. Satriano. Immobilization of protein molecules on solid surface for biosensor applications; G. Zhavnerko, et al. Mesoporous aluminosilicates as a host and reactor for preparation of ordered metal nanowires; A. Eliseev, et al. III: Single and assembled molecules, nanoparticles on surface and interface investigations. Scanning probe microscopy of biomacromolecules: instrumentation and experiments; I. Yaminsky, G. Kiselev. Surface science tools and their application on nanosystems like C60 to indium phosphide; J.A. Schaefer, et al. Polarized Raman spectroscopy of single layer and multilayer Ge/Si(001) quantum dot heterostructures; A.V. Baranov, et al. IV: Fundamental properties of carbon integrated nanosystems. Nanosystems of polymerized fullerenes and carbon-nanotubes; P. Scharff, S. Cui. Synthesis and characterization of C60- and C70 polymer phases; L. Carta-Abelmann, et al. The nanospace inside single wall carbon nanotubes; H. Kuzmany, et al. Mechanical properties of carbon thin films; S. Tamulevicius, et al. V: Fundamental properties of silicon integrated nanosystems. Thin carbon layers on nanostructured silicon: properties and applications; Angelescu, et al. ID periodic structures obtained by deep anisotropic etching of silicon; E. Astrova, et al. Diode Shottky systems on Al - nanosilicon interface layer - Si; G. Vorobets. VI: Multifunctional applications of nanosystems. VI.I. Moletronics. Nano-bio electronic devices based on DNA bases and proteins; R. Rinaldi, et al. DNA, DNA/nanocarbon and macrocyclic metal complex/C60 molecular building blocks for nanosystems: charge transport and sensing; E. Buzeneva, et al. VI.II. Electronics and photonics. Silicon nanocrystal memory devices; A. Nassiopoulou, et al. On the route towards a monolithically integrated silicon photonics; N. Daldosso, L. Pavesi. Photoluminescent nanosilicon systems; V. Makara. Optical characterization of opal photonic hetero-crystals; S. Romanov. VI.III. Spintronics and magneto-optoelectronics. Magnetism in polymerized fullerenes; T. Makarova. Application of the electronic properties of carbon nanotubes: computation of the magnetic properties and the 13C NMR shifts;
