Applied physics in the 21st century /
Clasificación: | Libro Electrónico |
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Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Hauppauge, N.Y. :
Nova Science Publishers,
©2010.
|
Colección: | Horizons in world physics ;
v. 266. |
Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- APPLIED PHYSICS IN THE 21STCENTURY, (HORIZONS IN WORLDPHYSICS, VOLUME 266); CONTENTS; PREFACE; EMERGING CONCEPTS AND CHALLENGES IN NANOMETAL OXIDE THIN FILMS; SUMMARY OF THE ARTICLE; A. INTRODUCTION TO METAL OXIDES; 1. TITANIUM OXIDE THIN FILM FOR LUNG ASSISTED DEVICES; 1.1. Summary; 1.2. Introduction; 1.3. Introduction to Photo-Catalysis; 1.4. Basics of Water Splitting by Photo-Catalysis; 1.5. Oxygenation of Blood by Photo-Catalysis; 1.6. Challenges in the Process of Oxygenation by Photocatalysis; 2. NANO SILVER
- SILVER OXIDE THIN FILMS; 2.1. Summary; 2.2. Introduction.
- 2.2. Surface Plasmons and Fluorescence in Silver
- Silver Oxide NanoClusters2.3. P- type Conductivity in Mixed Phase Silver Oxide Thin Films; 2.4. Fluorescence from Photo-Activated Nano-Silver Oxide; 3. NANO TUNGSTEN OXIDE THIN FILM FOR ELECTRO-CHROMICS; 3.1. Summary; 3.2. Introduction; 3.3. The Optical Absorption Process in Tungsten Oxide Thin Films; 3.3. Kelvin Probe Studies; 3.4. A Brief Outline on Nano-Electro-Chromics Materials and Processes; 3.5. Structural Properties of WO3 Nanowires; 3.6. Morphology of WO3 Nanowire Thin Films; 3.7. Growth of Layered Tungsten Oxide Thin Films.
- 3.8. Effect of Electron Beam Irradiation on the Properties of WO3 Thin Films3.8.1. Structural properties of electron bombarded WO3 films; 3.8.2. Optical properties of electron bombarded WO3 films; 3.8.3. Compositional studies of electron bombarded WO3 films; 3.8.4. Surface morphology of electron bombarded WO3 films; 3.8.5. Luminescence in electron bombarded samples; 4. ZINC OXIDE FOR TRANSPARENT ELECTRONICS(p-type CONDUCTING); 4.1. Summary; 4.2. Introduction; 4.3. Measurements on p- type TCOs; 4.4. Progress in the Understanding of the Origin of Holes and p- typeConduction.
- 4.5. Systems with Spinel Structure4.6. Physical Properties of ZnO; 4.7. ZnO Homojunction; 4.8. Measurement of Charge Density by Hall Effect in p- type TCO ThinFilms; 4.9. The Future Trends of the TCO Thin Films; ACKNOWLEDGEMENTS; Present Day Technology for Lung Assisted Devices; Summary Reaction; REFERENCES; SPECTROSCOPIC ANALYSIS OF CHEMICAL SPECIESIN CARBON PLASMAS INDUCED BY HIGH-POWER IRCO2 LASER; ABSTRACT; 1. INTRODUCTION; 2. FUNDAMENTALS OF LASER INDUCED BREAKDOWN SPECTROSCOPY(LIBS); 2.1. Nature of the Plasmas; 2.2. Local Thermodynamic Equilibrium (LTE). Model for the Plasma.
- 2.3. LIB Plasma2.3.1. Initiation mechanism: Multiphoton ionization (MPI) and electron impactionization (EII); 2.3.2. Electron attachment, recombination and diffusion; 2.4. Elements of LIBS; 2.4.1. Line radiation; 2.4.2. Continuum radiation; 2.4.3. Line Broadening; Determination of electron number density from Starkbroadening of spectral lines; Natural broadening:; Doppler broadening:; Pressure broadening:; Stark broadening; 2.4.4. Determination of excitation, vibrational and rotational temperatures; 2.4.5. Ionization degree of the plasmas: Saha equation.