Eason, R. W. ed.
Pulsed Laser Deposition of Thin Films
Applications-Lead Growth of Functional Materials
John Wiley & Sons 2006.11
688 pp.(H)
ISBN 0-471-44709-9
21,700円
Contents
1. Pulsed Laser Deposition of Complex Materials: Progress Towards Applications/ 2. Resonant Infrared Pulsed Laser Ablation and Deposition of Thin Polymer Films/ 3. Deposition of Polymers and Biomaterials Using the Matrix Assisted Pulsed Laser Eveporation (MAPLE) Process/ 4. In situ Diagnostics by High Pressure RHEED during PLD/ 5. Ultra-fast laser Ablation and Film Deposition/ 6. Cross-beam PLD: Metastable Film Structures from Intersecting Plumes/ 7. Combinatorial Pulsed Laser Deposition/ 8. Growth Kinetics During Pulsed Laser Deposition/ 9. Large Area Commercial Pulsed Laser Deposition/ 10. Coating Powders for Drug Delivery Systems Using Pulsed Laser Deposition/ 11. Transparent Conducting Oxide Films/ 12. ZnO and ZnO-related Compounds/ 13. Group III Nitride Growth/ 14. Pulsed Laser Deposition of High-Temperature Superconducting Thin Films and Their Applications/ 15. DLC: Medical and Mechanical Applications/ 16. Pulsed Laser Deposition of Metals / 17. Optical Waveguide Growth and Applications/ 18. Biomaterials: New issues and Breakthroughs for Biomedical Applications/ 19. Thermoelectric Materials/ 20. Piezoelectrics/ 21. Ferroelectric Thin Films for Microwave Device Applications / 22. Films for Electrochemical Applications/ 23. Pulsed Laser Deposition of Tribological Coatings / 24. Laser Ablation Synthesis of Single-wall Carbon Nanotubes: The SLS Model/ 25. Quasicrystalline Thin Films/ Index/ *
Henderson, B. & Bartram, R.H.
Crystal-Field Engineering of Solid-State Laser Materials
Cambridge University Press 2005.8
414 pp. (P)
ISBN 0-521-01801-3
9,100円
Contents
Preface; 1. An introduction to lasers; 2. Symmetry considerations; 3. Optical crystals: their structures, colours and growth; 4. Energy levels of ions in crystals; 5. Spectra of ions in crystals; 6. Radiationless transitions; 7. Energy transfer and excited state absorption; 8. Covalency; 9. Engineering the crystal field; 10. The crystal field engineered/
* This book examines the underlying science and design of laser materials. It emphasizes the principles of crystal-field engineering and discusses the basic physical concepts that determine laser gain and nonlinear frequency conversion in optical crystals. Henderson and Bartram develop the predictive capabilities of crystal-field engineering to show how modification of the symmetry and composition of optical centers can improve laser performance. *
Tracton, A.A. ed.
Coatings Materials and Surface Coatings
CRC Press 2006.11
528 pp. (H)
ISBN 1-4200-4404-4
20,500円
Contents
(MATERIALS) 1.Acrylic Polymers. 2.Vinyl Ether Polymers. 3.Poly(Styrene-Butadiene). 4.Liquid Polymers for Coatings. 5.Polyesters. 6.Alkyd Resins. 7.The Polyurea Revolution: Protective Coatings for the 21st Century. 8.Phenolic Resins. 9.Coal Tar and Asphalt Coatings. 10.Vulcanizate Thermoplastic Elastomers. 11.Olefinic Thermoplastic Elastomers. 12.Ethylene Vinyl Alcohol Copolymer (EVOH) Resins. 13.Elastomeric Alloy Thermoplastic Elastomers. Polyvinyl Chloride and Its Copolymers in Plastisol Coatings. 14.Polyvinyl Acetal Resins. 15.Polyimides. 16.Parylene Coating. 17.Nitrocellulose. 18.Soybean. 19.Blood. and Casein Glues. 20.Fish Gelatin and Fish Glue. 21.Waxes. 22.Carboxymethylcellulose. 23.Hydroxyethylcellulose. 24.Antistatic and Conductive Additives. 25.Silane Adhesion Promoters. Chromium Complexes. 26.Nonmetallic Fatty Chemicals as Internal Mold Release Agents in Polymers. 27.Organic Peroxides. 28.Surfactants for Waterborne Coatings Applications. 29.Surfactants. 30.Dispersants. and Defoamers for the Coatings. 31.Inks. and Adhesives Industries. 32.Pigment Dispersion. 33.Colored Inorganic Pigments. 34.Organic Pigments. 35.Amino Resins. 36.Driers. 37.Biocides for the Coatings Industry. 38.Clays. 39.Fluorocarbon Resins for Coatings and Inks. 40.High Temperature Pigments. 41.Polyurethane Associative Thickeners for Waterborne Coatings. (SURFACE COATINGS) 42.Flexographic Inks. 43.Multicolor Coatings. 44.Paintings Conservation Varnish. 45.Thermoset Powder Coatings. 46.Peelable Medical Coatings. 47.Conductive Coatings. 48.Silicone Release Coatings. 49.Silicone Hard Coatings. 50.Pressure-Sensitive Adhesives and Adhesive Products. 51.Self-Seal Adhesives. 52.Solgel Coatings. 53.Radiation-Cured Coatings. 54.Nonwoven Fabric Binders. 55.Fire-Retardant/Fire-Resistive Coatings. 56.Leather Coatings. 57.Metal Coatings. 58.Corrosion and Its Control by Coatings. 59.Marine Coatings Industry. 60.Decorative Surface Protection Products. 61.Coated Fabrics for Protective Clothing. 62.Coated Fabrics for Apparel Use: The Problem of Comfort. 63.Architectural Fabrics. 64.Gummed Tape. 65.Transdermal Drug Delivery Systems. 66.Optical Fiber Coatings. 67.Exterior Wood Finishes. 68.Pharmaceutical Tablet Coating. 69.Textiles for Coating. 70.Nonwovens as Coating and Laminating Substrates. 71.General Use of Inks and the Dyes Used to Make Them. 72.Gravure Inks. 73.Artist's Paints: Their Composition and History / * Drawing from the third edition of The Coatings Technology Handbook, this text concentrates exclusively on the raw materials used in the coatings, adhesives, paints, and inks industries. The book examines the uses for resins, solvents, pigments, and additives based on their chemical properties. It discusses how to determine the optimal application technique depending on service needs and environmental factors. Coatings Materials and Surface Coatings contains chapters covering the latest polymers, carbon resins, and high-temperature materials used for coatings, adhesives, and varnishes today. It also covers application-specific materials with fire-retardant, conductive, acid-free, waterproof, and anti-corrosive properties. *
Dubowski, J. J. & Tanev, S. ed.
Photon-based Nanoscience and Nanobiotechnology
Springer-Verlag 2007.1
371 pp (H)
ISBN 1-4020-5521-8
28,600円
Proceedings of the NATO Advanced Study Institute on Photon-based Nanoscience and Technology: from Atomic Level Manipulation to Materials Synthesis and Nano-Biodevice Manufacturing (Photon-NST'2005), Sherbrooke, Quebec, Canada, 19-29 September 2005
Contents
Preface and Acknowledgements/ 1.Physical and Chemical Aspects of Laser-Materials Interactions/ 2.Attosecond Control of Electrons ― The Basis of Attosecond Science/3.Fundamentals of Nanobiophotonics/ 4.Nonlinear Optical Physics and Applications of the Plasmonic Response in Metal Nanoparticles/ 5.Finite-Difference Time-Domain Modeling of Light Scattering from Biological Cells Containing Gold Nanoparticles/ 6.Photonic and Non-Photonic Based Nanoparticles in Cancer Imaging and Therapeutics/ 7.Quantum Dot Bio-Template for Rapid Detection of Pathogenic Substances/ 8.Applications of Free-Electron Lasers in Biological Sciences, Medicine and Materials Science/ 9.Laser-Based Synthesis, Diagnostics, and Control of Single-Walled Carbon Nanotubes and Nanohoms for Composites and Biological Nanovectors/ 10.Photophysical Processes that Activate Selective Changes in Photostructurable Glass Ceramic Material Properties/ 11.Molecular Design of Polymers for Laser Structuring and Thin Oxide Films by Pulsed Laser Deposition as Model System for Electrochemical Applications/ 12.Three Dimensional Micro and Nanochips Fabricated by Femtosecond Laser for Biomedical Applications/ 13.Photo-Assisted Processes from Nano Size Colloid Sols/ 14.Controlling the Surface Plasmon Resonances in Metal Nanoparticles by Laser Light/ 15.A Summary of Canadian Nanomedicine Research Funding: Strengths and Needs/ Author Index./
* Light has always played a significant role in the synthesis of materials and formation of small-scale solid structures. The invention of holographic and phase mask projection has enabled engineers to fabricate devices with characteristic features much smaller than the wavelength of the light used for processing. A further reduction of device dimensions has been achieved by implementing the processes that rely strongly on the non-linear effects of light-matter interaction. The intention of this book was to provide the Reader, primarily graduate students and young researchers in materials engineering, bio(chem)physics, medical physics and biophysics, with a set of articles reviewing state-of-the art research and recent advancements in the field of photon-matter interaction for micro/nanomaterials synthesis and manipulation of properties of biological and inorganic materials at the atomic level. Photon-based nanoscience and related technologies have created exciting opportunities for the fabrication and characterization of nano(bio)material devices and systems, and it is expected to significantly contribute to the development of Nanobiophotonics and Nanomedicine. *
Wicks, Z. W. Jr. et al.
Organic Coatings 3rd ed.
Science and Technology
(有機塗料 - 科学と技術 第3版)
John Wiley & Sons 2007.2
722 pp. (H)
ISBN 0-471-69806-7
18,500円
Contents
Preface / Symbols and Units / 1. What Are Coatings? / 2. Polymerization and Film Formation / 3. Flow / 4. Mechanical Properties / 5. Exterior Durability / 6. Adhesion / 7. Corrosion Protection by Coatings / 8. Acrylic Resins / 9. Latexes / 10. Polyester Resins / 11. Amino Resins / 12. Binders Based on Polyisocyanates: Polyurethanes / 13. Epoxy and Phenolic Resins / 14. Drying Oils / 15. Alkyd Resins / 16. Silicon Derivatives / 17. Other Resins and Cross-Linkers / 18. Solvents / 19. Color and Appearance / 20. Pigments / 21. Pigment Dispersion / 22. Effect of Pigments on Coating Properties / 23. Application Methods / 24. Film Defects / 25. Solventborne and High-Solids Coatings / 26. Waterborne Coatings / 27. Electrodeposition Coatings / 28. Powder Coatings / 29. Radiation Cure Coatings / 30. Product Coatings for Metal Substrates / 31. Product Coatings for Nonmetallic Substrates / 32. Architectural Coatings / 33. Special Purpose Coatings / 34. Perspectives on Coating Design / Index / *** Organic Coatings, Third Edition is an unparalleled reference and text for organic coatings technology and its myriad applications. *
Tracton, A.A.
Coatings Technology
Fundamentals, Testing, and Processing Techniques
CRC Press 2006.11
408 pp. (H)
ISBN 1-4200-4406-0
20,700円
Contents
FUNDAMENTALS AND TESTING. 1.Rheology and Surface Chemistry. 2.Coating Rheology. 3.Structure-Property Relationships in Polymers. 4.The Theory of Adhesion. 5.Adhesion Testing. 6.Coating Calculations. 7.Infrared Spectroscopy of Coatings. 8.Thermal Analysis for Coatings Characterizations. 9.Color Measurement for the Coatings Industry. 10.The Use of X-ray Fluorescence for Coat Weight Determinations. 11.Sunlight, Ultraviolet, and Accelerated Weathering. 12.Cure Monitoring: Microdielectric Techniques. 13.Test Panels. 14.Design of Experiments for Coatings. 15.Top 10 Reasons Not to Base Service Life Predictions Upon Accelerated Lab Light Stability Tests. 16.Under What Regulation? Coating and Processing Techniques. 17.Wire-Wound Rod Coating. 18.Slot Die Coating for Low Viscosity Fluids. 19.Porous Roll Coater. 20.Rotary Screen Coating. 21.Screen Printing. 22.Flexography. 23.Ink-Jet Printing. 24.Electrodeposition of Polymers. 25.Electroless Plating. 26.The Electrolizing Thin. 27.Dense. Chromium Process. 28.The Armoloy Chromium Process. 29.Sputtered Thin Film Coatings. 30.Vapor Deposition Coating Technologies. 31.Cathodic Arc Plasma Deposition. 32.Industrial Diamond and Diamondlike Films. 33.Tribological Synergistic Coatings. 34.Chemical Vapor Deposition. 35.Solvent Vapor Emission Control. 36.Surface Treatment of Plastics. 37.Flame Surface Treatment. 38.Plasma Surface Treatment. 39.Surface Pretreatment of Polymer Webs by Fluorine. 40.Calendering of Magnetic Media. 41.Embossing. 42.In-Mold Finishing. HVLP: 43.The Science of High-Volume. 44.Low-Pressure Finishing. 45.A Practical Guide to High-Speed Dispersion. 46.Fade Resistance of Lithographic Inks - A New Path Forward: Real World Exposures in Florida and Arizona Compared to Accelerated Xenon Arc Exposures/
* Drawing from the third edition of The Coatings Technology Handbook, this book focuses entirely on the testing, experimental design, and strategies for determining suitable processing techniques in the coatings, adhesives, paints, and inks industries. *
585-17 登録日 07.04.11
