Handbook of Nanomaterials for Manufacturing Applications

<p>SECTION1: NANOMATERIALS IN INDUSTRIAL MANUFACTURING<br>1. Manufacturing and Nanomaterials Perspectives<br>2. Manufacturing and Technology: Perspectives and Enablers</p> <p>SECTION 2: ENGINEERED NANOMATERIALS IN SURFACES AND COATINGS (Consumer products)<br>3. Thin Films for Coating Nanomaterials<br>4. Nanomaterials in detergents and cosmetics products – The mechanisms and implications<br>5. Nanomaterials in coatings: An industrial point of view<br>6. New nanostructured Ni-W coatings with good corrosion resistance and high hardness<br>7. Sol-gel surface functionalization regardless of its form and type<br>8. Engineered nanomaterials for light trapping<br>9. Nanocapsules: an engineered nanomaterial for smart self-healing coating and catalysis<br>10. Nanoengineered Sunscreens: Techno-Scientific Breakthrough for Personal Care<br>11. A cosmeceutical perspective of engineered nanoparticles<br>12. ActivLayr technology based on marine collagen nanofibres and natural extracts</p> <p>SECTION 3: ENGINEERED NANOMATERIALS IN THE TEXTILES INDUSTRY<br>13. Engineered nanoparticles in textiles<br>14. Nanoparticles and nano fibres used in the textile industry<br>15. Gas diffusion and relative permeability of nanofibers based on fractal geometry<br>16. Engineered nanomaterials: Scope in today's textile industry<br>17. Nanoparticles: a potential alternative to classical fire retardants for textile substrates<br>18. Fabrication of Polyniline/Carbon nanotube based nanocomposite electrode for detection of organic pollutants<br>19. Nanoparticles: novel use in bioactive textiles</p> <p>SECTION 4: ENGINEERED NANOMATERIALS IN THE SPORTS INDUSTRY<br>20. Segmentation of consumers for nanomaterials-based sports equipment<br>21. Engineered nanomaterials in the sports industry</p> <p>SECTION 5: ENGINEERED NANOMATERIALS IN THE AEROSPACE AND VEHICLE INDUSTRIES<br>22. Modeling of carbon nanotubes and carbon nanotube–polymer composites for aerospace applications<br>23. Engineered nanomaterials in aerospace<br>24. Photoconducting polymeric nanocomposites and their application in holographic interferometry<br>25. Fabrication of nano-sized nickel-based alloys for aerospace engines (Turbine blades)</p> <p>SECTION 6: ENGINEERED NANOMATERIALS IN THE CONSTRUCTION INDUSTRY<br>26. Use of engineered nanomaterials in the construction industry: paints and their flows in construction and demolition waste<br>27. Synthesis, design and characterization of controlled nanoparticles for the construction industry</p> <p>SECTION 7: ENGINEERED NANOMATERIALS IN THE WOOD INDUSTRY<br>28. Non-linear release dynamics for a CeO2 nanomaterial embedded in a protective wood stain, due to matrix photo-degradation<br>29. Application of Nanocellulose (NC) in the paper industry</p> <p>SECTION 8: ENGINEERED NANOMATERIALS AND ADDITIVE MANUFACTURING (AM)<br>30. Processing of nano- and microcapsules for industrial applications<br>31. Nanomaterials for printing technology: A revolution in industrial manufacturing<br>32. Nanomaterials as Additives</p> <p>SECTION 9: NANOMATERIALS IN ELECTRONICS<br>33. Nanomaterials for Electronics, Optoelectronics, and Bioelectronics<br>34. Application of nanomaterials in the electronics industry</p> <p>SECTION 10: NANOMATERIALS FOR POLYMERS & THEIR COMPOSITES<br>35. Nanofibrillar polymer–polymer and single polymer composites via the 'converting instead of adding' concept – Examples of true polymer nanocomposite<br>36. Application of nanomaterials for polymers and their composites</p> <p>SECTION 11: SAFETY RISKS IN THE COMMERCIALIZATION OF NANOMATERIALS<br>37. Establishing the safety of novel bio-based cellulose nanomaterials for commercialization<br>38. Risk assessment and toxicity of nanomaterials</p> <p>SECTION 12: NANOMATERIALS FOR A GREEN AND SUSTAINABLE FUTURE<br>39. Comparison of tools for the sustainability assessment of nanomaterials<br>40. Nanotechnology for a sustainable future</p> <p>CONCLUSIONS<br>41. Enhancing Manufacturing with Nanomaterials</p>