<p>Preface.- Part I: Nanocomposites and nanostructures.- Chapter 1: Endohedral fullerene complexes. Which and how many small molecules can be inserted into fullerenes and a carbon nanotube?.- Chapter 2: Physical and mechanical properties of surface nanocrystalline structures, generated by severe thermal-plastic deformation.- Chapter 3: Energy Spectra of the Fibonacci Superlattice Based on the Gapped Graphene.- Chapter 4: Carbon-based piezoresistive polymer composites.- Chapter 5: Structure and physical and mechanical properties of nanocomposite (zr-ti-cr-nb)n and (Ti-Zr-Al-Nb-Y)n coatings, obtained by vacuum-arc evaporation method.- Chapter 6: New nanosized systems based lantanide diketonate complexes for OLEDs.- Chapter 7: Poly(methacrylamidoaryl methacrylate)`s surface morphology.- Chapter 8: Investigation of nonlinear magnetic properties magneto-mechano-chemical synthesized nanocomplex from magnetite and antitumor antibiotic doxorubicin.- Chapter 9: Electrochemical elaboration of Nano powders based on magnesium and lithium for solid hydrogen storage.- Chapter 10: Heat-Resistant SiO<sub>2</sub> – Al<sub>2</sub>O<sub>3</sub> – TiO<sub>2</sub> ceramics with nanostructured alumina filler and their properties.- Part II: Nanophotonics.- Chapter 11: Technological aspects of corrosion resistant steels surfacing by intense relativistic electron beams.- Chapter 12: An ellipsometric model for establishing thickness of thin water nanolayers on the silicon wafers.- Chapter 13: The effect of sintering temperature on linear and nonlinear optical properties of YAG nanoceramics.- Chapter 14: Impact of carbon nanotube on homocysteine clusters - MDsimulation.- Chapter 15: Heat capacity of 1D chains of atom/molecule adsorbates in the grooves c-SWNT bundles.- Part III: Nanobiotechnology.- Chapter 16: About Some Physical Properties of Water in Nanosistems and the Possible Mechanism of Superconductivity Induction by Water in Compounds SrFe<sub>2</sub>As<sub>2</sub> and FeTe<sub>0,8</sub>S<sub>0,2</sub>.- Chapter 17: Effect of Gold Nanoparticles on Proliferative Properties of SPEV Cells.- Chapter 18: Nanobiotechnologies in the system of farm animals gene pool preservation.- Chapter 19: Protein as nanomachines: Hysteretic enzymes revisited.- Chapter 20: Carbon Nanotubes Application for Plants Genetic Transformation.- Chapter 21: Platinum nanoparticles with adsorptive layer of Chlorella vulgaris polysacharides inactivate tumor cells of ascitic Ehrlich carcinoma, ovarian cancer and leukemia.- Part IV: Applications.- Chapter 22: Biosensors based on urease, adsorbed on nickel, platinum, and gold conductometric transducers modified with silicalite and nanozeolites.- Chapter 23: Magnetic properties of nanoparticle RMnO<sub>3</sub> (R = Pr, Nd and Tb) compounds.- Chapter 24: Technological Approaches For Growth Of Silicon Nanowires Arrays.- Chapter 25: Influence Of Physical Parameters On The Transconductance g<sub>m</sub> Of Channel For The Component Submicron.- Chapter 26: Structural, optical and photocatalytic properties of quasi-one-dimensional nanocrystalline ZnO, ZnOC:nC composites and С-doped ZnO.- Chapter 27: Two Dimensions SpinFET Transistor.- Chapter 28: Futures strain properties of multilayer film materials.- Chapter 29: Kinetics of nonequilibrium transition in spin-crossover compounds.- Index.</p><br>
