06717nam 2200613 a 450 991096489290332120251116181710.01-61324-909-8(CKB)2550000001042225(EBL)3019731(SSID)ssj0000854413(PQKBManifestationID)12326542(PQKBTitleCode)TC0000854413(PQKBWorkID)10903010(PQKB)10944794(MiAaPQ)EBC3019731(Au-PeEL)EBL3019731(CaPaEBR)ebr10671296(OCoLC)847626733(BIP)38493497(BIP)34483357(EXLCZ)99255000000104222520110621d2012 uy 0engur|n|---|||||txtccrDiamond-like carbon films /Yuto S. Tanaka, editor1st ed.Hauppauge, N.Y. Nova Science Publishersc20121 online resource (219 p.)Materials science and technologiesDescription based upon print version of record.1-61324-791-5 Includes bibliographical references and index.Intro -- DIAMOND-LIKE CARBON FILMS -- DIAMOND-LIKE CARBON FILMS -- Contents -- Preface -- Advanced Pulsed Arc Technique of Fabrication of DLC Films and Their Technical and Medical Applications -- 1. Design and Operating Principles of the Pulsed Plasma Source -- The Main Result of the DLC Film Deposition by Pulsed Arc Technique -- 2. Plasma Separation -- 3. Spectroscopic and Probe Diagnostics of Carbon Plasma -- 4. A Novel Combined PVD-CVD Method of DLC Film Depositing -- References -- Peculiarities of Ion-Beam Synthesis of Carbon-Based Phases -- Abstract -- 1. Introduction -- 2. The Principle of Structural Compliance at Phase Transformation under Ion Irradiation -- 3. Experimental Evidences of the Principle of Structural Compliance at Ion Synthesis of Carbon-Rich or other Bulk Phases -- 3.1. Carbon Phase with the Face-Centered Cubic Structure Formed under Irradiation of Graphite Films -- 3.2. Ion Synthesis of Silicon Carbide by Carbon Implantation in Si -- 3.3. Ion Synthesis of Al4C3, AlN and AlB Phases -- 4. Carbon and Carbon-Rich Nanophases -- Conclusion -- Acknowledgments -- References -- Electron Field Emission Properties of Nonmetal and Metal Doped Diamond Like Carbon -- 1. Abstruct -- 2. Introduction -- 2.1. Diamond Like Carbon (DLC) as a Material -- 2.2. Structure of DLC -- 2.3. Why also there is Interest in DLC -- 2.4. Difficulties of Pure DLC Material and how to over Come the Problems -- 3. Basic Theory of Electron Field Emission -- 4. Field Emission of DLC Thin Films -- 5. Synthesis and Field Emission of Metal and Nonmetal Doped DLC Thin Films -- 5.1. Synthesis and Electron Field Emission Property of Silicon Incorporated DLC (Si-DLC) Thin Films -- 5.2. Synthesis and Field Emission Property of Ag-DLC Thin Films -- 5.3. Synthesis and Study the Field Emission of Fluorine Doped (F-DLC) Thin Films -- Conclusion -- References.Internal Stress of Hydrogenated Diamond-Like Carbon Films -- Abstract -- 1. Internal Stress of Diamond-Like Carbon (DLC) Thin Film -- 1.1. Origin of the Internal Stress -- 1.2. Reduction in the Internal Stress -- 2. Internal Stress of DLC Thin Films Deposited by EBEP-CVD -- 2.1. EBEP-CVD System -- 2.2. Correlation between Deposition Parameters and Film Properties [32] -- 2.3. Correlations between Internal Stresses and Structural Properties [32] -- 2.4. Internal Stress Reduction by Silicon Incorporation [44] -- References -- Diamond-Like Carbon Films Improve their Properties with the Incorporation of Crystalline Diamond Particles -- Abstract -- Introduction -- Tribocorrosion -- Diamond-Like Carbon (DLC) -- Nanoparticle-Incorporated DLC Films -- The Synthesis Procedure of Crystalline Diamond-Incorporated DLC Films -- CD-DLC Film Characterization -- Electrochemical Tests -- Tribocorrosion -- Conclusion -- Acknowledgments -- References -- DLC Thin Films Growth in Thermionic Vacuum Arc Technologies: TVA and GTVA -- Abstract -- Introduction -- Experimental details -- Electrodes Configuration -- Results and Discussion -- Conclusions -- Acknowledgments -- References -- Hard Cr-Containing Diamond-Like Carbon Films in Mid-Frequency Dual-Magnetron Sputtering -- Abstract -- Section 1: Hard and Superhard Cr-Containing -- Diamond-Like Carbon Films -- 1. Introduction -- 2. Experimental Details -- 3. Results -- 4. Conclusion -- Section 2: Cr-Doped DLC Films in Three Mid-Frequency Magnetron Power Modes -- 1. Introduction -- 2. Experimental Details -- 3. Results -- 4. Conclusion -- Section 3: Preparation and Properties of -- Thick DLC Film -- 1. Introduction -- 2. Experimental Details -- 3. Results -- 4. Conclusion -- Section 4: Influence of Cr Content and Nanograin Size on Microstructure, Mechanical and Sliding Tribological Behavior of Hard Cr-DLC Films.1. Introduction -- 2. Experimental Details -- 3. Results -- 4. Conclusion -- References -- A Diamond-Like Carbon Film Applied as an Alignment Layer for LCDs -- Abstract -- 1. Introduction -- 2. DLC Films Using Ion Beam or UV Light Non-Contact Alignment Process -- 2.1. Experiment -- 2.2. Results and Discussion -- 2.2.1. PECVD and Sputtered DLC Films -- 2.2.2. UV Photo-Alignment -- 2.2.3. Ion beam alignment -- 3. Novel DLC Films without Any Alignment Process -- 3.1. Experiments -- 3.2. Results and Discussion -- 3.2.1.Optical Characteristics -- 3.2.2. Electro-Optical Characteristics -- 3.2.3. DLC Film Conditions -- 3.2.4. LC Adsorbability to the DLC Film -- 4. Summary -- Acknowledgment -- References -- Index.This book presents current research from across the globe in the study of diamond-like carbon films. Topics discussed include the peculiarities of ion-beam synthesis of carbon-based phases; electron field emission properties of non-metal and metal doped diamond like carbon; internal stress and its reduction of hydrogenated diamond-like carbon thin films deposited by plasma CVD methods; incorporating crystalline diamond particles in diamond-like carbon films to improve their properties and diamond-like carbon films applied as an alignment layer for LCDs.Materials science and technologies.Diamonds, ArtificialDiamond thin filmsDiamonds, Artificial.Diamond thin films.667/.9Tanaka Yuto S1865537MiAaPQMiAaPQMiAaPQBOOK9910964892903321Diamond-like carbon films4472658UNINA