Fundamentals and Properties of Multifunctional Nanomaterials

<p>1. A glimpse into the fundamentals and properties of multifunctional nanomaterials<br>Part 1. Nanoscopic solids and transport properties<br>2. Transport properties of nanoscopic solids as probed by spectroscopic techniques<br>Part 2. Properties of liquid crystalline nanomaterials<br>3. Properties of multifunctional bionanomaterials of lipid A-phosphate in liquid phases and quasi-crystalline structures<br>4. Behavior of nanoparticles within liquid crystal phases<br>Part 3. Properties of carbon-based nanomaterials<br>5. Characteristics of carbon nanotubes and their nanocomposites<br>6. Morphology-correlated mechanical properties of ionic liquid-modified multiwalled carbon nanotubes/poly(vinyl chloride) nanocomposites<br>7. Fundamentals and properties of multifunctional graphene and graphene-based nanomaterials<br>8. Fundamental photophysical properties of fluorescent carbon dots and their applications in metal ion sensing and bioimaging<br>Part 4. Characteristics of magnetic nanomaterials<br>9. Magnetic properties of doped germanium nanostructures<br>10. Magnetic and electrochemical characteristics of carbon-modified magnetic nanoparticles<br>Part 5. Properties of ferroelectric nanomaterials<br>11. Effect of particle size on structural phase transitions of lithium-modified sodium niobates (LiXNa1-XNbO3 x = 0,0.06 and 0.12)<br>12. BiFeO3-based multiferroic materials and their properties<br>Part 6. Properties of plasmonic nanomaterials<br>13. Multifunctional plasmonic nanomaterials<br>14. Multifunctional gold nanoparticles for biosensing: effects of surface plasmon resonance, localized surface plasmon resonance, fluorescence, and aggregation<br>Part 7. Engineered nanomaterials for industrial applications<br>15. The key role of metal nanoparticle in metal organic frameworks of UiO family (MOFs) for the application of CO2 capture and heterogeneous catalysis<br>16. Embracing nanotechnology concepts in the electronics industry<br>17. Conducting polyaniline-based nanocomposites as electromagnetic interference shielding materials<br>Part 8. Fundamentals of 2D nanomaterials<br>18. Two-dimensional layered nanosheets: structure and unique properties<br>19. MoS2, a new perspective beyond graphene<br>20. Effect of defects and functionalization on mechanical and fracture properties of two-dimensional nanomaterials<br>Part 9. The impact of nanomaterials on health and safety<br>21. Occupational health and safety measures of multifunctional nanoparticles in biomedical research and beyond</p>