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Title Advances in electrical engineering research. Volume 1 / Thomas M. Brouwer, editor
Published New York : Nova Science Publishers, 2011

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Description 1 online resource (xi, 388 pages) : illustrations
Series Advances in Electrical Engineering Research ; v. 1
Advances in Electrical Engineering Research
Contents ADVANCES IN ELECTRICALENGINEERING RESEARCH -- ADVANCES IN ELECTRICALENGINEERING RESEARCH -- CONTENTS -- PREFACE -- ELECTROSPRAY TECHNOLOGY FOR THIN-FILM DEVICES PRODUCTION -- Abstract -- 1. Introduction -- 2. Electrospraying Fundamentals -- 2.1. Electrospray Systems -- 2.2. Electrospray Jet and Drop Formation -- 2.3. Electrospray Aerosol Characterization -- 3. Thin Solid Film Deposition -- 3.1. Introduction -- 3.2. Film Morphology -- 3.3. Precursors -- 3.4. Effect of Substrate Temperature -- 3.5. Effect of Substrate Material
3.6. Effect of Solvent Properties and Precursor Concentration 3.7. Effect of Deposition Time and Flow Rate -- 4. Thin Solid Film Devices -- 4.1. Solar Cells -- 4.2. Fuel Cells -- 4.3. Lithium Batteries -- 4.4. Electrochemical Capacitors (Supercapacitors) -- 4.5. Gas Sensors -- Nomenclature -- References -- RECENT ADVANCES IN FLEXIBLE ORGANIC LIGHT-EMITTING DEVICES -- Abstract -- 1. Introduction -- 2. Device Architectures -- 3. Substrates and Anode -- 3.1. Substrate Materials
3.1.1. Ultrathin Glass: Wonderful Transmittance but Fragile 3.1.2. Metal Foils: Good Flexibility, Poor Surface Morphology and Opacity -- 3.1.3. Polymer Substrates: Dimensional Stability Is One of the Biggest Challenges -- 3.1.4. Emerging Novel Substrates -- 3.2. Electrodes -- 3.2.1. Metal: Perfect Conduction, but Poor Transmittance -- 3.2.2. Metallic Oxide: Good Conduction and Transmittance, but Poor Flexibility -- 3.2.3. Polymer or Plastic: Designable, Reproducible and Low Cost -- 3.2.4. Carbon Nanotubes: Good Conductivity, High Transmittance and Flexibility
4. Materials 4.1. Hole-Injection Materials -- 4.2. Hole-Transport Materials -- 4.3. Electroluminescent Materials -- 4.4. Electron-Injection Materials and Electron-Transport Materials -- 5. Encapsulation Methods -- 5.1. Barrier-Coated Flexible Lid Encapsulation -- 5.2. Thin Film Encapsulation -- 5.2.1. Single-Layer Thin Film Encapsulation -- 5.2.2. Multilayer Thin Film Encapsulation -- 5.3. Hybrid Encapsulation -- 6. Manufacturing Technologies -- 6.1. Ink-Jet Printing -- 6.2. Roll-to-R Roll Printin ng -- 6.3. Screen P Printing
6.4. Novel Manufacturing Technology 6.4.1. Molecular Jet Printing -- 6.4.2. Peel-off Technique -- 7. Summary and Outlook -- Acknowledgment -- Reference -- LIQUID CRYSTALS DISPLAY TECHNIQUES AND THEIR VARIOUS APPLICATIONS INTO DISPLAY INDUSTRY -- Abstract -- I. Introduction -- II. Types of Liquid Crystal Displays -- (i) Active Matrix Liquid Crystal Display (AMLCD) -- (ii) Passive Matrix Liquid Crystal Display (PMLCD) -- III. Liquid Crystal (LC) Display Modes -- (i) Twisted Nemtic LCDs -- (ii) Super-Twisted Nemtic LCDs
Bibliography Includes bibliographical references and index
Notes Print version record
Subject Electrical engineering.
electrical engineering.
TECHNOLOGY & ENGINEERING -- Electrical.
Electrical engineering
Form Electronic book
Author Brouwer, Thomas M
ISBN 9781617287053
1617287059
9781617284960
1617284963