Nanoparticle Technology Handbook

Makio Naito is one of the leading figures in innovative powder and nanoparticle processing to develop advanced materials about energy and environmental issues. He has authored or coauthored more than 600 technical articles, including about 300 refereed journal articles. He has contributed to 71 books with 23 books as an editor. He has received several awards including Richard M. Fulrath Award from The American Ceramic Society in 2002. He is a Fellow of The American Ceramic Society, and a Professional Academician Member of “World Academy of Ceramics”. Professor at the Joining and Welding Research Institute (JWRI), Osaka University, Japan. He is a Guest Professor of Shanghai Jiao Tong University, P.R. China, a Visiting Professor of Shanghai Institute of Ceramics, P.R. China, and President of The Society of Powder Technology, Japan. His expertise is in the field of chemical engineering; powder technology; nanoparticle processing for advanced materials including advanced ceramics and drug delivery systems; breakdown technology for nanoparticles; powder characterizations for nanoparticles, suspensions, granules and green bodies. After finishing the Master course at Kyoto University and studying powder technology at Karlsruhe University, Toyokazu Yokoyama has been engaged in mainly R&D work for Hosokawa Micron Corporation in the field of powder technology for nearly 40 years. Finishing the Ph.D. work on the subject of ultrafine wet grinding at Nagoya University, he worked as a general manager of Hosokawa Micromeritics Laboratory. Meanwhile, he published papers and articles and filed patents related with powder and particle technology, and edited some journals and books including the previous versions of Nanoparticle Technology Handbook. Secretary General of Hosokawa Powder Technology Foundation and a Fellow of Powder Technology Research Institute of Hosokawa Micron Corporation. His expertise is in the field of powder and particle technology for processing and characterization of fine particles including nanoparticles for functional materials specializing in size reduction, particle composing, mixing, classification, particle generation, etc. Dr. Kiyoshi Nogi is one of the leaders in the field of high temperature interfacial physical chemistry. He has published more than 400 research papers including about 300 refereed journal articles. He has received many awards including the best paper of Iron and Steel Institute, Japan and also that of Japan Institute of Metal. He is a fellow of Japan Welding Society, Smart Processing Society.

Foreword
Preface

Fundamentals

Chapter 1. Basic properties and measuring methods of nanoparticles
Chapter 2. Structural control of nanoparticles
Chapter 3. Characteristics and behavior of nanoparticles and its dispersion systems
Chapter 4. Control of nanostructure of materials
Chapter 5. Characterization methods for nanostructure of materials
Chapter 6. Evaluation methods for properties of nanostructured body
Chapter 7. Environmental and safety issues with nanoparticles

Applications

Chapter 1. Dispersion of fine silica particles using alkoxysilane and industrialization
Chapter 2. Generation of metal nanoparticles using reactive plasma arc evaporation
Chapter 3. Sensing based on localized surface plasmon resonance in metallic nanoparticles
Chapter 4. Microelectronics packaging by metal nanoparticle pastes
Chapter 5. A dye-sensitized solar cell utilizing metal nanoparticle
Chapter 6. Design of nanoparticles for oral delivery of peptide drugs
Chapter 7. Formation of thick electronic ceramic films with bonding technique of crystalline fine particles and their applications
Chapter 8. Development and multi-functionalization of high-functional separation membranes
Chapter 9. Development of polymer-clay nanocomposites by dispersion of particles into polymer materials
Chapter 10. Development of novel ferroelectric materials
Chapter 11. Development of new phosphors
Chapter 12. Zeolite membrane
Chapter 13. Enhancement of the performance of insulating materials
Chapter 14. Barium titanate nanoparticles synthesized under sub and supercritical water conditions
Chapter 15 Ceramic filter for trapping diesel particles
Chapter 16. Nano particle formation of DNA (globule transformation)
Chapter 17. Addressing of nano-particles by using DNA molecules
Chapter 18. Development of high performance electrochemical reactors
Chapter 19. Dendrimers and their application to organic electronics devices
Chapter 20. Electrical conductive CNT dispersed Si3N4 ceramics
Chapter 21. Development of functional skincare cosmetics using biodegradable PLGA nanospheres
Chapter 22. Development of photonic crystals based on nanoparticle assembly
Chapter 23. Liquid-crystalline inorganic nano and fine particles
Chapter 24. Closely packed colloidal crystal assembled with nanoparticles and its application for smart materials with tunable structural color
Chapter 25. Development of new cosmetics based on nanoparticles
Chapter 26. Dispersion control of Al2O3 nano-particles in ethanol
Chapter 27. Development of thermoresponsive magnetic nanoparticle and its deployment in the biotechnology field
Chapter 28. Development of fuel cells
Chapter 29. Delivery to the brain
Chapter 30. Nozzle-free ink jet technology
Chapter 31. Development of exhaust catalyst
Chapter 32. Development of optical memory using semiconductor nanoparticles
Chapter 33. Development of bright phosphors using glasses incorporating semiconductor nanoparticles
Chapter 34. Development of photocatalyst inserted into surface of porous aluminosilicate
Chapter 35. AC overhead transmission line audible-noise reduction measures using surface improvement
Chapter 36. Development of a high-performance secondary battery by controlling the surface structure
Chapter 37. Pinpoint drug and delivery
Chapter 38. Expression of optical function by nanostructure using femtosecond laser processing
Chapter 39. Instantaneous nanofoaming method for fabrication of closed-porosity silica particle
Chapter 40. Evaluation and applications of dispersing carbon nanotube CNT in the polymers
Chapter 41. Surface modification of inorganic nanoparticles by organic functional groups
Chapter 42. Fabrication technique of organic nanocrystals and their optical properties and materialization
Chapter 43. Bio-imaging with quantum dots
Chapter 44. Application of quantum dots for the bio-medical engineering
Chapter 45. Nanoparticles synthesis, dispersion, and functionalization for industrial application
Chapter 46. Synthesis of nanoparticles by RF induction thermal plasma
Chapter 47. Self-assembly of oxide nanosheets: precise structural control and its applications
Chapter 48. Development of ceramic-bonded carbon
Chapter 49. Development of dispersion and composing processes of nanoparticles and their application to advanced firefighter uniform
Chapter 50. Creation of boron nitride nanotubes and possibility for a series of advanced nano-composite materials
Chapter 51. PLGA nanoparticle design and preparation for DDS & medical device
Chapter 52. Development of photonic crystal resonators for terahertz wave sensing by using nanopaticles stereolithography
Chapter 53. Practical issue of nano-sized colorant particles
Chapter 54. Material design of electronic liquid powderTM used in novel-type bistable reflective display (QR-LPDTM)
Chapter 55. Three-dimensional structural analysis of  nanocomposite materials containing nanoparticulates
Chapter 56. Powder technology and nanotechnology contributed for clean utilization of coal
Chapter 57. Novel recycling of FRP using nanoparticle bonding
Chapter 58. Nanotechnology challenge by mechanochemistry
Chapter 59. Superior thermal insulation film with transparency achieved by hollow silica nanoparticles
Chapter 60. Development of nanoparticle composite technique for low Pt-loading PEFCs