Advances in nanotechnology. Volume 4 /
Clasificación: | Libro Electrónico |
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Otros Autores: | , |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
New York :
Nova Science,
©2010.
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Colección: | Advances in Nanotechnology.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- ADVANCES IN NANOTECHNOLOGY. VOLUME 4
- ADVANCES IN NANOTECHNOLOGY. VOLUME 4
- CONTENTS
- PREFACE
- ZNO NANOSTRUCTURES DEPOSITED BY LASER ABLATION
- ABSTRACT
- 1. INTRODUCTION
- 1. A. Properties and Applications of Zinc Oxide and its Nanostructures
- 1. B. Growth Techniques for Zinc Oxide Nanostructures
- 2. ZINC OXIDE NANOSTRUCTURES BY LASER ABLATION
- 2. A. The Pulsed Laser Deposition Technique
- 2. B. Nanostructured Zinc Oxide by PLD in the World
- 3. OUR RESULTS
- 3. A. Experimental PLD Set-up and Deposition Parameters
- 3. B. Morphology3. C. Summary of other Characterizations
- 3. D. Gas Sensing Tests
- 4. CONCLUSION
- ACKNOWLEDGMENTS
- REFERENCES
- MODELING EFECTIVECARBON NANOTUBES BY MOLECULAR MECHANICS
- ABSTRACT
- INTRODUCTION
- UP TO DATE RESEARCH
- MOLECULAR MECHANICS AND MATHEMATICAL MODELING
- DATA ANALYSIS AND DISCUSSIONS
- CLOSING COMMENTS
- ACKNOWLEDGMENTS
- REFERENCES
- GAS ADSORPTION SENSORS BASED ON HYBRID CARBON NANOTUBES
- 1. GENERAL INTRODUCTION
- THEORETICAL BACKGROUND
- GASES / VAPORS OF INTEREST
- 2. PRINCIPLE OF OPERATION 2.1. Physical Principles
- 2.2. Complex Impedance Measurement Principles
- 3. EXPERIMENTAL
- 3.1. Sensor Device Fabrication Process
- 3.1.1 Substrate Preparation
- 3.1.2. Drop Cast Film Process
- 3.2. Test System Setup
- 3.2.1. Test Chambers
- 3.2.2. Pneumatic System
- 3.2.3. Supporting Equipment
- 3.3. Sensor Testing Process
- 4. RESULTS
- 4.1. No2 Studies
- 4.1.1. Sensitivity To NO2
- 4.1.2. Response Time to NO2
- 4.1.2.1. Response to NO2 in Air
- 4.1.2.2. Response to Additions of 1 Ppm NO2 in Air 4.1.2.3. Response to Increasing NO2 in Air
- 4.2. Ethanol Studies
- 4.3.H2Studies
- 4.4. Co2 Studies
- 4.5. O2 Studies
- 5. DISCUSSION
- 5.1. Sensitivity
- 5.2. Selectivity
- 5.3. Hysteresis
- 6. CONCLUSIONS
- 7. SUMMARY
- ZNO NANO-STRUCTURES FOR BIOSENSING APPLICATIONS: MOLECULAR DYNAMICS SIMULATIONS
- ABSTRACT
- 1. INTRODUCTION
- 2. CASES STUDY
- 2.1. ZnO Hexagonal Polar Surfaces Slab-Water Interaction (Wetting and Electrowetting)
- 2.2. ZnO Nanorods or Tubes Array-Water Interaction (Wetting and Electrowetting) 2.3. Water Permeation through ZnO Nanotube
- 2.4. Ionic Currents of Mg2+, Ca2+, K+, and Na+ Ions Through ZnO Nanotube
- 3. METHOD
- 3.1. Molecular Dynamics
- 3.2. BUILDING ZnO STRUCTURES
- 3.2.1. ZnO HEXAGONAL POLAR SLAB
- 3.2.2. ZnO NANORODS
- 3.2.3. ZnO NANOTUBE
- 3.3. ZnO- WATER SYSTEMS
- 3.3.1. Wetting
- 3.3.2. Electrowetting
- 3.3.3. Water Permeation
- 3.3.4. Ionic Currents
- 3.4. Water Density Profiles
- 4. RESULTS AND DISCUSSION