Nanoparticle Technology Handbook, 2nd Edition | Masuo Hosokawa, Kiyoshi Nogi, Makio Naito, Toyokazu Yokoyama. Key Features. Introduction of all aspects of nanoparticle technology, from the fundamentals to applications. Basic information on the preparation through to the characterization of nanoparticles from various viewpoints. Information on nanostructures, which play an important role in practical applications. Sixty applications of nanoparticles in diverse fields, from which sixteen newly added. Up- to- date information given by specialists in each field. Information on nanostructures made by nanoparticles, which play a major role in practical applications.
More Features. Photonics Spectra, Apr 2016 Space-Based Remote Sensing Yielding New Insights into Climate Change. Nanoparticle Technology Handbook, 2nd Edition. Foreword Preface. Fundamentals. Chapter 1. Basic properties and measuring methods of nanoparticles Chapter 2. Browse through 14,324,115 journal and book articles on ScienceDirect.com. An optical ground wire (also known as an OPGW or, in the IEEE standard, an optical fiber composite overhead ground wire) is a type of cable that is used in the. Handbook includes basic concepts of optical communications. It discuss some of the physics of light and how light can be manipulated,modulated and trasmitted to send. The updated and expanded second edition of the Nanoparticle Technology Handbook is an authoritative reference providing both the theory behind nanoparticles and the. PracticalJokebook.com is the prank-filled website for the popular Practical Joker's Handbook series by bestselling humor author Tim Nyberg (aka Tim, the Duct Tape Guy). Description. The updated and expanded second edition of the Nanoparticle Technology Handbook is an authoritative reference providing both the theory behind nanoparticles and the practical applications of nanotechnology. The second edition is thoroughly updated and expanded with sixteen new chapters, providing a reference much broader in scope than the previous edition. Over 1. 40 experts in nanotechnology and/or particle technology contributed to this new edition. Nanoparticle technology is anew and revolutionary technology, which is increasingly being used in electronic devices and nanomaterials. It handles the preparation, processing, application and characterisation of nanoparticles and has become the core of nanotechnology as an extension of the conventional fine particle / powder technology. Nanoparticle technology plays an important role in the implementation of nanotechnology in many engineering and industrial fields including electronic devices, advanced ceramics, new batteries, engineered catalysts, functional paint and ink, drug delivery system, biotechnology, etc.; and makes use of the unique properties of the nanoparticles which are completely different from those of bulk materials. The book includes not only the theory behind nanoparticles, but also the practical applications of nanotechnology. It examines future possibilities and new innovations and contains important knowledge on nanoparticle characterization and the effect of nanoparticles on the environment and on humans. The second edition of Nanoparticle Technology Handbook remains a valuable reference source for scientists and engineers working directly with fine particles and materials or in industries that handle these nanoparticles. Related areas include pharmaceutical products, ink or paint materials, electromagnetic memory devices, ceramic materials and plastic materials with high electro- conductivity. Readership. Suitable for researchers engaged in the research of nanoparticles as well as engineers engaged in R& D of nanoparticles or nanoparticles. Can also be used for seminars or technical training courses on new materials using nanoparticles. Nanoparticle Technology Handbook, 2nd Edition. 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 1. 0. Development of novel ferroelectric materials. Chapter 1. 1. Development of new phosphors. Chapter 1. 2. Zeolite membrane. Chapter 1. 3. Enhancement of the performance of insulating materials. Chapter 1. 4. Barium titanate nanoparticles synthesized under sub and supercritical water conditions. Chapter 1. 5 Ceramic filter for trapping diesel particles. Chapter 1. 6. Nano particle formation of DNA (globule transformation)Chapter 1. Addressing of nano- particles by using DNA molecules. Chapter 1. 8. Development of high performance electrochemical reactors. Chapter 1. 9. Dendrimers and their application to organic electronics devices. Chapter 2. 0. Electrical conductive CNT dispersed Si. N4 ceramics. Chapter 2. Development of functional skincare cosmetics using biodegradable PLGA nanospheres. Chapter 2. 2. Development of photonic crystals based on nanoparticle assembly. Chapter 2. 3. Liquid- crystalline inorganic nano and fine particles. Chapter 2. 4. Closely packed colloidal crystal assembled with nanoparticles and its application for smart materials with tunable structural color. Chapter 2. 5. Development of new cosmetics based on nanoparticles. Chapter 2. 6. Dispersion control of Al. O3 nano- particles in ethanol. Chapter 2. 7. Development of thermoresponsive magnetic nanoparticle and its deployment in the biotechnology field. Chapter 2. 8. Development of fuel cells. Chapter 2. 9. Delivery to the brain. Chapter 3. 0. Nozzle- free ink jet technology. Chapter 3. 1. Development of exhaust catalyst. Chapter 3. 2. Development of optical memory using semiconductor nanoparticles. Chapter 3. 3. Development of bright phosphors using glasses incorporating semiconductor nanoparticles Chapter 3. Development of photocatalyst inserted into surface of porous aluminosilicate. Chapter 3. 5. AC overhead transmission line audible- noise reduction measures using surface improvement. Chapter 3. 6. Development of a high- performance secondary battery by controlling the surface structure. Chapter 3. 7. Pinpoint drug and delivery. Chapter 3. 8. Expression of optical function by nanostructure using femtosecond laser processing. Chapter 3. 9. Instantaneous nanofoaming method for fabrication of closed- porosity silica particle. Chapter 4. 0. Evaluation and applications of dispersing carbon nanotube CNT in the polymers. Chapter 4. 1. Surface modification of inorganic nanoparticles by organic functional groups. Chapter 4. 2. Fabrication technique of organic nanocrystals and their optical properties and materialization. Chapter 4. 3. Bio- imaging with quantum dots. Chapter 4. 4. Application of quantum dots for the bio- medical engineering. Chapter 4. 5. Nanoparticles synthesis, dispersion, and functionalization for industrial application. Chapter 4. 6. Synthesis of nanoparticles by RF induction thermal plasma. Chapter 4. 7. Self- assembly of oxide nanosheets: precise structural control and its applications. Chapter 4. 8. Development of ceramic- bonded carbon. Chapter 4. 9. Development of dispersion and composing processes of nanoparticles and their application to advanced firefighter uniform. Chapter 5. 0. Creation of boron nitride nanotubes and possibility for a series of advanced nano- composite materials. Chapter 5. 1. PLGA nanoparticle design and preparation for DDS & medical device. Chapter 5. 2. Development of photonic crystal resonators for terahertz wave sensing by using nanopaticles stereolithography. Chapter 5. 3. Practical issue of nano- sized colorant particles. Chapter 5. 4. Material design of electronic liquid powder. TM used in novel- type bistable reflective display (QR- LPDTM)Chapter 5. Three- dimensional structural analysis of nanocomposite materials containing nanoparticulates. Chapter 5. 6. Powder technology and nanotechnology contributed for clean utilization of coal. Chapter 5. 7. Novel recycling of FRP using nanoparticle bonding. Chapter 5. 8. Nanotechnology challenge by mechanochemistry. Chapter 5. 9. Superior thermal insulation film with transparency achieved by hollow silica nanoparticles. Chapter 6. 0. Development of nanoparticle composite technique for low Pt- loading PEFCs.
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