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Advanced energy materials /
The role of materials engineering is to provide the much needed support in the development of photovoltaic devices with the new and fundamental researches on novel energy materials with tailor-made photonic properties. Advanced Energy Materials has been designed to provide the state-of-the-art so th...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Hoboken, New Jersey :
John Wiley & Sons,
[2014]
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| Colección: | Advance materials series.
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| Temas: | |
| Acceso en línea: | Texto completo |
MARC
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| 245 | 0 | 0 | |a Advanced energy materials / |c edited by Ashutosh Tiwari and Sergiy Valyukh. |
| 264 | 1 | |a Hoboken, New Jersey : |b John Wiley & Sons, |c [2014] | |
| 264 | 4 | |c ©2014 | |
| 300 | |a 1 online resource | ||
| 336 | |a text |b txt |2 rdacontent | ||
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| 490 | 1 | |a Advance materials series | |
| 504 | |a Includes bibliographical references and index. | ||
| 588 | 0 | |a Print version record and CIP data provided by publisher. | |
| 505 | 0 | |a 1.1. Introduction / Kok-Keong Chong -- 1.2. The Principle of Non-imaging Focusing Heliostat (NIFH) / Kok-Keong Chong -- 1.2.1. Primary Tracking (Global Movement for Heliostat Frame) / Kok-Keong Chong -- 1.2.2. Secondary Tracking (Local Movement for Slave Mirrors) / Kok-Keong Chong -- 1.3. Residual Aberration / Kok-Keong Chong -- 1.3.1. Methodology / Kok-Keong Chong -- 1.3.2. Optical Analysis of Residual Aberration / Kok-Keong Chong -- 1.4. Optimization of Flux Distribution Pattern for Wide Range of Incident Angle / Kok-Keong Chong -- 1.5. First Prototype of Non-imaging Focusing Heliostat (NIFH) / Kok-Keong Chong -- 1.5.1. Heliostat Structure / Kok-Keong Chong -- 1.5.2. Heliostat Arm / Kok-Keong Chong -- 1.5.3. Pedestal / Kok-Keong Chong -- 1.5.4. Mirror and Unit Frame / Kok-Keong Chong -- 1.5.5. Hardware and Software Control System / Kok-Keong Chong -- 1.5.6. Optical Alignment of Prototype Heliostat / Kok-Keong Chong. | |
| 505 | 8 | |a 1.5.7. High Temperature Solar Furnace System / Kok-Keong Chong -- 1.6. Second Prototype of Non-imaging Focusing Heliostat (NIFH) / Kok-Keong Chong -- 1.6.1. Introduction / Kok-Keong Chong -- 1.6.2. Mechanical Design and Control System of Second Prototype / Kok-Keong Chong -- 1.6.3. High Temperature Potato Skin Vaporization Experiment / Kok-Keong Chong -- 1.7. Conclusion / Kok-Keong Chong -- Acknowledgement / Kok-Keong Chong -- References / Kok-Keong Chong -- 2.1. Introduction / Suresh Sagadevan -- 2.2. Motivations for Solar Energy / Suresh Sagadevan -- 2.2.1. Importance of Solar Energy / Suresh Sagadevan -- 2.2.2. Solar Energy and Its Economy / Suresh Sagadevan -- 2.2.3. Technologies Based on Solar Energy / Suresh Sagadevan -- 2.2.4. Photovoltaic Systems / Suresh Sagadevan -- 2.3. Nanostructures and Different Synthesis Techniques / Suresh Sagadevan -- 2.3.1. Classification of Nanomaterials / Suresh Sagadevan. | |
| 505 | 8 | |a 2.3.2. Synthesis and Processing of Nanomaterials / Suresh Sagadevan -- 2.4. Nanomaterials for Solar Cells Applications / Suresh Sagadevan -- 2.4.1. CdTe, CdSe and CdS Thin-Film PV Devices / Suresh Sagadevan -- 2.4.2. Nanoparticles/Quantum Dot Solar Cells and PV Devices / Suresh Sagadevan -- 2.4.3. Iron Disulfide Pyrite, CuInS2 and Cu2ZnSnS4 / Suresh Sagadevan -- 2.4.4.Organic Solar Cells and Nanowire Solar Cells / Suresh Sagadevan -- 2.4.5. Polycrystalline Thin-Film Solar Cells / Suresh Sagadevan -- 2.5. Advanced Nanostruutures for Technological Applications / Suresh Sagadevan -- 2.5.1. Nanocones Used as Inexpensive Solar Cells / Suresh Sagadevan -- 2.5.2. Core/Shell Nanoparticles towards PV Applications / Suresh Sagadevan -- 2.5.3. Silicon PV Devices / Suresh Sagadevan -- 2.5.4. III-V Semiconductors / Suresh Sagadevan -- 2.6. Theory and Future Trends in Solar Cells / Suresh Sagadevan -- 2.6.1. Theoretical Formulation of the Solar Cell / Suresh Sagadevan. | |
| 505 | 8 | |a 2.6.2. The Third Generation Solar Cells / Suresh Sagadevan -- 2.7. Conclusion / Suresh Sagadevan -- References / Suresh Sagadevan -- 3.1. Introduction / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.2. Metal Oxide Nanostructures for Photovoltaic Applications / Hyung-Kee Seo / M. Shaheer Akhtar / Sadia Ameen / Hyung Shik Shin -- 3.3. TiO2Nanomaterials and Nanocomposites for the Application of DSSC and Heterostructure Devices / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.3.1. Fabrication of DSSCs with TiO2Nanorods (NRs) Based Photoanode / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.3.2. Fabrication of DSSCs with TiO2Nanocomposite Based Photoanode / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.3.3. TiO2 Nanocomposite for the Heterostructure Devices / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar. | |
| 505 | 8 | |a 3.4. ZnO Nanomaterials and Nanocomposites for the Application of DSSC and Heterostructure Devices / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.4.1. Fabrication of DSSCs with ZnO Nanotubes (NTs) Based Photoanode / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.4.2. Fabrication of DSSCs with Nanospikes Decorated ZnO Sheets Based Photoanode / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.4.3. Fabrication of DSSCs with ZnO Nanorods (NRs) and Nanoballs (NBs) Nanomaterial Based Photoanode / Sadia Ameen / M. Shaheer Akhtar / Hyung-Kee Seo / Hyung Shik Shin -- 3.4.4. Fabrication of DSSCs with Spindle Shaped Sn-Doped ZnO Nanostructures Based Photoanode / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar. | |
| 505 | 8 | |a 3.4.5. Fabrication of DSSCs with Vertically Aligned ZnO Nanorods (NRs) and Graphene Oxide Nanocomposite Based Photoanode / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.4.6. ZnO Nanocomposit for the Heterostructures Devices / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.4.7. Fabrication of Heterostructure Device with Doped ZnO Nanocomposite / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.8. Metal Oxide Nanostructures and Nanocomposites for Photocatalytic Application / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.8.1. ZnO Flower Nanostructures for Photocatalytic Degradation of Crystal Violet (Cv)Dye / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.8.2. Advanced ZnO-Graphene Oxide Nanohybrid for the Photocatalytic Degradation of Crystal Violet (Cv)Dye / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar. | |
| 505 | 8 | |a 3.8.3. Effective Nanocomposite of Polyaniline (PANT) and ZnO for the Photocatalytic Degradation of Methylene Blue (MB) Dye / Hyung-Kee Seo / M. Shaheer Akhtar / Sadia Ameen / Hyung Shik Shin -- 3.8.4. Novel Poly(1-naphthylamine)/Zinc Oxide Nanocomposite for the Photocatalytic-Degradation of Methylene Blue (MB) Dye / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.8.5. Nanocomposites of Poly(1-naphthylamine)/SiO2 and Poly(1-Naphthylamine)/TiO2 for the Photocatalytic Degradation of Methylene Blue (MB) Dye / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.9. Conclusions / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 3.10. Future Directions / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- References / Sadia Ameen / Hyung Shik Shin / Hyung-Kee Seo / M. Shaheer Akhtar -- 4.1. Introduction / Archana Chandra / Angesh Chandra. | |
| 505 | 8 | |a 4.2. Classification of Superionic Solids / Archana Chandra / Angesh Chandra -- 4.3. Ion Conduction in Superionic Solids / Archana Chandra / Angesh Chandra -- 4.4. Important Models / Archana Chandra / Angesh Chandra -- 4.4.1. Models for Crystalline/Polycrystalline Superionic Solids / Archana Chandra / Angesh Chandra -- 4.4.2. Models for Glassy Superionic Solids / Archana Chandra / Angesh Chandra -- 4.4.3. Models for Composite Superionic Solids / Archana Chandra / Angesh Chandra -- 4.4.4. Models for Polymeric Superionic Solids / Archana Chandra / Angesh Chandra -- 4.5. Applications / Archana Chandra / Angesh Chandra -- 4.5.1. Solid-State Batteries / Archana Chandra / Angesh Chandra -- 4.5.2. Fuel Cells / Archana Chandra / Angesh Chandra -- 4.5.3. Super Capacitors / Archana Chandra / Angesh Chandra -- 4.6. Conclusion / Archana Chandra / Angesh Chandra -- References / Archana Chandra / Angesh Chandra -- 5.1. Introduction / Michael R. Kessler / Vijay Kumar Thakur. | |
| 505 | 8 | |a 5.2. Dielectric Mechanism / Michael R. Kessler / Vijay Kumar Thakur -- 5.2.1. Dielectric Permittivity, Loss and Breakdown / Michael R. Kessler / Vijay Kumar Thakur -- 5.2.2. Polarization / Michael R. Kessler / Vijay Kumar Thakur -- 5.3. Dielectric Materials / Michael R. Kessler / Vijay Kumar Thakur -- 5.4. Demand for New Materials: Polymer Composites / Michael R. Kessler / Vijay Kumar Thakur -- 5.5. Polymer Nanocomposites: Concept and Electrical Properties / Michael R. Kessler / Vijay Kumar Thakur -- 5.5.1. Polymer Nanocomposites for Dielectric Applications / Michael R. Kessler / Vijay Kumar Thakur -- 5.6. Conclusion and Future Perspectives / Michael R. Kessler / Vijay Kumar Thakur -- References / Vijay Kumar Thakur / Michael R. Kessler -- 6.1. Introduction / S.W. Anwane -- 6.2. Ionic Solids / S.W. Anwane -- 6.2.1. Bonds in Ionic Solids / S.W. Anwane -- 6.2.2. Structure of Ionic Solids / S.W. Anwane -- 6.3. Classification of Solid Electrolytes / S.W. Anwane. | |
| 505 | 8 | |a 6.4. Criteria for High Ionic Conductivity and Mobility / S.W. Anwane -- 6.5. Electrical Characterization of Solid Electrolyte / S.W. Anwane -- 6.5.1. DC Polarization / S.W. Anwane -- 6.5.2. Impedance Spectroscopy / S.W. Anwane -- 6.6. Ionic Conductivity and Temperature / S.W. Anwane -- 6.7. Concentration-Dependent Conductivity / S.W. Anwane -- 6.8. Ionic Conductivity in Composite SE / S.W. Anwane -- 6.9. Thermodynamics of Electrochemical System / S.W. Anwane -- 6.10. Applications / S.W. Anwane -- 6.10.1. Solid-State Batteries / S.W. Anwane -- 6.10.2. Sensors / S.W. Anwane -- 6.10.3. SO2 Sensor Kinetics and Thermodynamics / S.W. Anwane -- 6.12. Conclusion / S.W. Anwane -- References / S.W. Anwane -- 7.1. Introduction / Surender Duhan / Vijay Tomer -- 7.1.1. Silicon Era / Surender Duhan / Vijay Tomer -- 7.1.2. Moore's Law / Surender Duhan / Vijay Tomer -- 7.2. Limitations of Silicon-Based Technology / Surender Duhan / Vijay Tomer. | |
| 505 | 8 | |a 7.2.1. Speed, Density and Design Complexity / Surender Duhan / Vijay Tomer -- 7.2.2. Power Consumption and Heat Dissipation / Surender Duhan / Vijay Tomer -- 7.2.3. Cost Concern / Surender Duhan / Vijay Tomer -- 7.3. Need for Carbon-Based Electronics Technology / Surender Duhan / Vijay Tomer -- 7.4. Carbon Family / Surender Duhan / Vijay Tomer -- 7.4.1. Carbon Nanotube / Surender Duhan / Vijay Tomer -- 7.4.2. Graphene / Surender Duhan / Vijay Tomer -- 7.5. Electronic Structure of Graphene and CNT / Surender Duhan / Vijay Tomer -- 7.6. Synthesis of CNTs / Surender Duhan / Vijay Tomer -- 7.6.1. Arc Discharge Method / Surender Duhan / Vijay Tomer -- 7.6.2. Pyrolysis of Hydrocarbons / Surender Duhan / Vijay Tomer -- 7.6.3. Laser Vaporization / Surender Duhan / Vijay Tomer -- 7.6.4. Electrolysis / Surender Duhan / Vijay Tomer -- 7.6.5. Solar Vaporization / Vijay Tomer / Surender Duhan -- 7.7. Carbon Nanotube Devices / Surender Duhan / Vijay Tomer. | |
| 505 | 8 | |a 7.7.1. Nanotube-Based FET Transistors CNTFET / Surender Duhan / Vijay Tomer -- 7.7.2. CNT Interconnect / Surender Duhan / Vijay Tomer -- 7.7.3. Carbon Nanotube Sensor of Polar Molecules / Surender Duhan / Vijay Tomer -- 7.7.4. Carbon Nanotube Crossbar Arrays for Random Access Memory / Surender Duhan / Vijay Tomer -- 7.8. Advantages of CNT Based Devices / Surender Duhan / Vijay Tomer -- 7.8.1. Ballistic Transport / Surender Duhan / Vijay Tomer -- 7.8.2. Flexible Device / Surender Duhan / Vijay Tomer -- 7.8.3. Low Power Dissipation / Surender Duhan / Vijay Tomer -- 7.8.4. Low Cost / Surender Duhan / Vijay Tomer -- 7.9. Issues with Carbon-Based Electronics / Surender Duhan / Vijay Tomer -- 7.10. Conclusion / Surender Duhan / Vijay Tomer -- References / Surender Duhan / Vijay Tomer -- 8.1. Introduction / Pooja B and G. Sharma -- 8.2.Computational Details / Pooja B and G. Sharma -- 8.3. Results and Discussion / Pooja B and G. Sharma. | |
| 505 | 8 | |a 8.3.1. Phase Transition and Structural Parameters / Pooja B and G. Sharma -- 8.3.2. Pressure Dependent Electronic Properties / Pooja B and G. Sharma -- 8.3.3. Pressure-Dependent Dielectric Constant / Pooja B and G. Sharma -- 8.4. Conclusions / Pooja B and G. Sharma -- Acknowledgements / Pooja B and G. Sharma -- References / Pooja B and G. Sharma -- 9.1. Introduction / Jihyun Kim / Lu Liu / Fan Ren / Alexander Y. Polyakov / Richard Deist / S.J. Pearton -- 9.2. Fundamental Studies of Radiation Defects in GaN and Related Materials / Fan Ren / Lu Liu / Jihyun Kim / Richard Deist / S.J. Pearton / Alexander Y. Polyakov -- 9.2.1. Threshold Displacement Energy: Theory and Experiment / S.J. Pearton / Richard Deist / Alexander Y. Polyakov / Fan Ren / Lu Liu / Jihyun Kim. | |
| 505 | 8 | |a 9.2.2. Radiation Defects in GaN: Defects Levels, Effects on Charge Carriers Concentration, Mobility, Lifetime of Charge Carriers, Thermal Stability of Defects / S.J. Pearton / Richard Deist / Jihyun Kim / Fan Ren / Lu Liu / Alexander Y. Polyakov -- 9.3. Radiation Effects in Other III-Nitrides / S.J. Pearton / Richard Deist / Jihyun Kim / Fan Ren / Lu Liu / Alexander Y. Polyakov -- 9.4. Radiation Effects in GaN Schottky Diodes, in AlGaN/GaN and GaN/InGaN Heterojunctions and Quantum Wells / S.J. Pearton / Richard Deist / Jihyun Kim / Fan Ren / Lu Liu / Alexander Y. Polyakov -- 9.5. Radiation Effects in GaN-Based Devices / S.J. Pearton / Richard Deist / Jihyun Kim / Fan Ren / Lu Liu / Alexander Y. Polyakov -- 9.6. Prospects of Radiation Technology for GaN / S.J. Pearton / Richard Deist / Jihyun Kim / Fan Ren / Lu Liu / Alexander Y. Polyakov -- 9.7. Summary and Conclusions / S.J. Pearton / Richard Deist / Jihyun Kim / Fan Ren / Lu Liu / Alexander Y. Polyakov. | |
| 505 | 8 | |a Acknowledgments / S.J. Pearton / Richard Deist / Jihyun Kim / Fan Ren / Lu Liu / Alexander Y. Polyakov -- References / S.J. Pearton / Richard Deist / Jihyun Kim / Fan Ren / Lu Liu / Alexander Y. Polyakov -- 10.1. Introduction / Manoj Bhushan Pandey / Ravindra Dhar / Roman Dabrowski -- 10.1.1. Molecular Packing in Liquid Crystalline Phases / Manoj Bhushan Pandey / Ravindra Dhar / Roman Dabrowski -- 10.2. Theories of Antiferroelectricity in Liquid Crystals / Roman Dabrowski / Manoj Bhushan Pandey / Ravindra Dhar -- 10.3. Molecular Structure Design/Synthesis of AFLC Materials / Manoj Bhushan Pandey / Ravindra Dhar / Roman Dabrowski -- 10.4. Macroscopic Characterization and Physical Properties of AFLCs / Manoj Bhushan Pandey / Ravindra Dhar / Roman Dabrowski -- 10.4.1. Experimental Techniques / Manoj Bhushan Pandey / Ravindra Dhar / Roman Dabrowski -- 10.4.2. Dielectric Parameters of AFLCs / Manoj Bhushan Pandey / Roman Dabrowski / Ravindra Dhar. | |
| 505 | 8 | |a 10.4.3. Switching and Electro-Optic Parameters / Manoj Bhushan Pandey / Ravindra Dhar / Roman Dabrowski -- 10.5. Conclusion and Future Scope / Manoj Bhushan Pandey / Ravindra Dhar / Roman Dabrowski -- Acknowledgements / Manoj Bhushan Pandey / Ravindra Dhar / Roman Dabrowski -- References / Manoj Bhushan Pandey / Ravindra Dhar / Roman Dabrowski -- 11.1. Introduction / Tungabidya Maharana / Alekha Kumar Sutar / Bikash Mohanty / Anita Routaray / Yuvraj Singh Negi / Nibedita Nath -- 11.1.1. What is Fuel Cell? / Tungabidya Maharana / Alekha Kumar Sutar / Bikash Mohanty / Anita Routaray / Yuvraj Singh Negi / Nibedita Nath -- 11.2. PEEK Overview / Tungabidya Maharana / Alekha Kumar Sutar / Bikash Mohanty / Anita Routaray / Yuvraj Singh Negi / Nibedita Nath -- 11.2.1. Applications of PEEK / Tungabidya Maharana / Alekha Kumar Sutar / Bikash Mohanty / Anita Routaray / Yuvraj Singh Negi / Nibedita Nath. | |
| 505 | 8 | |a 11.2.2. Why PEEK is Used as Fuel Cell Membrane / Tungabidya Maharana / Alekha Kumar Sutar / Bikash Mohanty / Anita Routaray / Yuvraj Singh Negi / Nibedita Nath -- 11.3. PEEK as Fuel Cell Membrane / Tungabidya Maharana / Alekha Kumar Sutar / Bikash Mohanty / Anita Routaray / Yuvraj Singh Negi / Nibedita Nath -- 11.4. Modified PEEK as Fuel Cell Membrane / Nibedita Nath / Anita Routaray / Alekha Kumar Sutar / Bikash Mohanty / Tungabidya Maharana / Yuvraj Singh Negi -- 11.4.1. Sulphonated PEEK as Fuel Cell Membrane / Tungabidya Maharana / Alekha Kumar Sutar / Bikash Mohanty / Anita Routaray / Yuvraj Singh Negi / Nibedita Nath -- 11.5. Evaluation of Cell Performance / Tungabidya Maharana / Alekha Kumar Sutar / Bikash Mohanty / Anita Routaray / Yuvraj Singh Negi / Nibedita Nath -- 11.6. Market Size / Tungabidya Maharana / Alekha Kumar Sutar / Bikash Mohanty / Anita Routaray / Yuvraj Singh Negi / Nibedita Nath. | |
| 505 | 8 | |a 11.7. Conclusion and Future Prospects / Tungabidya Maharana / Alekha Kumar Sutar / Bikash Mohanty / Anita Routaray / Yuvraj Singh Negi / Nibedita Nath -- Acknowledgement / Tungabidya Maharana / Alekha Kumar Sutar / Nibedita Nath / Anita Routaray / Yuvraj Singh Negi / Bikash Mohanty -- References / Alekha Kumar Sutar / Tungabidya Maharana / Nibedita Nath / Anita Routaray / Yuvraj Singh Negi / Bikash Mohanty -- 12.1. Introduction / Roshani Singh / K.N. Shinde -- 12.2. Some Well-Known Vanadate Phosphors / K.N. Shinde / Roshani Singh -- 12.3. Our Approach / K.N. Shinde / Roshani Singh -- 12.4. Experimental Details / Roshani Singh / K.N. Shinde -- 12.5. Results and Discussion of M3-3x/2(VO4)2:xEu(0.01 <or = x <or = 0.09 for M = Ca and 0 <or = x <or = 0.3 for M = Sr, Ba) Phosphors / Roshani Singh / K.N. Shinde -- 12.5.1.X-ray Diffraction Pattern of M3-3x/2(VO4)2:xEu Phosphor / K.N. Shinde / Roshani Singh. | |
| 505 | 8 | |a 12.5.2. Surface Morphology of M3-3x/2(VO4)2:xEu Phosphor / Roshani Singh / K.N. Shinde -- 12.5.3. Photoluminescence Properties of M3-3x/2(VO4)2:xEu Phosphor / Roshani Singh / K.N. Shinde -- 12.6. Effect of Annealing Temperature on M3-3x/2(VO4)2:xEu (x = 0.05 for M = Ca, x = 0.1 for M = Sr and x = 0.3 for M = Ba) Phosphors / Roshani Singh / K.N. Shinde -- 12.6.1.X-ray Diffraction Pattern of M3-3x/2(VO4)2:xEu phosphor / Roshani Singh / K.N. Shinde -- 12.6.2. Surface Morphology of M3-3x/2(VO4)2:xEu phosphor / K.N. Shinde / Roshani Singh -- 12.6.3. Photoluminescence Properties of M3-3x/2(VO4)2:xEu phosphor / K.N. Shinde / Roshani Singh -- 12.7. Conclusions / K.N. Shinde / Roshani Singh -- References / Roshani Singh / K.N. Shinde -- 13.1. Introduction / Prakash Chandra Mondal -- 13.2. Molecular Logic Gate on 3D Substrates / Prakash Chandra Mondal -- 13.3. Molecular Logic Gates and Circuits on 2D Substrates / Prakash Chandra Mondal. | |
| 505 | 8 | |a 13.3.1. Monolayer-Based System / Prakash Chandra Mondal -- 13.4.Combinatorial and Sequential Logic Gates and Circuits using Os-polypyridyl Complex on SiOx Substrates / Prakash Chandra Mondal -- 13.5. Multiple Redox States and Logic Devices / Prakash Chandra Mondal -- 13.6. Concluding Remarks / Prakash Chandra Mondal -- Acknowledgements / Prakash Chandra Mondal -- References / Prakash Chandra Mondal -- 14.1. Introduction / Kamlesh Kumari / Prashant Singh / Gopal K. Mehrotra -- 14.2. Applications of Metal Nanoparticles / Kamlesh Kumari / Gopal K. Mehrotra / Prashant Singh -- 14.3. Shape of Particles / Prashant Singh / Gopal K. Mehrotra / Kamlesh Kumari -- 14.4. Aggregation of Particles / Prashant Singh / Kamlesh Kumari / Gopal K. Mehrotra -- 14.5. Synthesis of Metal Nanoparticles / Kamlesh Kumari / Prashant Singh / Gopal K. Mehrotra -- 14.6. Stability against Oxidation / Kamlesh Kumari / Prashant Singh / Gopal K. Mehrotra. | |
| 505 | 8 | |a 14.7. Stabilization of Metal Nanoparticles in Ionic Liquid / Kamlesh Kumari / Prashant Singh / Gopal K. Mehrotra -- 14.8. Applications of Metal NPs as Potent Catalyst in Organic Synthesis / Kamlesh Kumari / Prashant Singh / Gopal K. Mehrotra -- 14.8. Conclusion / Kamlesh Kumari / Prashant Singh / Gopal K. Mehrotra -- References / Kamlesh Kumari / Prashant Singh / Gopal K. Mehrotra -- 15.1. Introduction / Parthiv M. Trivedi / C.K. Modi -- 15.2. Types of Zeolites / Parthiv M. Trivedi / C.K. Modi -- 15.3. Methodology / Parthiv M. Trivedi / C.K. Modi -- 15.4. Characterization Techniques / C.K. Modi / Parthiv M. Trivedi -- 15.5. Exploration of Zeolite-Y Enslaved Nanohybrid Materials / C.K. Modi / Parthiv M. Trivedi -- 15.5.1. Catalytic Liquid-Phase Hydroxylation of Phenol / C.K. Modi / Parthiv M. Trivedi -- 15.5.2. Catalytic Liquid-Phase Oxidation of Cyclohexane / C.K. Modi / Parthiv M. Trivedi -- 15.6. Conclusions / Parthiv M. Trivedi / C.K. Modi -- References / Parthiv M. Trivedi / C.K. Modi. | |
| 520 | |a The role of materials engineering is to provide the much needed support in the development of photovoltaic devices with the new and fundamental researches on novel energy materials with tailor-made photonic properties. Advanced Energy Materials has been designed to provide the state-of-the-art so that scientists can fully be informed of this vast multi-disciplinary approach. A good understanding on the excited state reactivity of photoactive materials helps to prepare new materials and molecules capable of absorbing light over a given wavelength range and using it for driving electron. | ||
| 590 | |a ProQuest Ebook Central |b Ebook Central Academic Complete | ||
| 650 | 0 | |a Renewable energy sources |x Research. | |
| 650 | 0 | |a Energy storage |x Materials. | |
| 650 | 0 | |a Solar energy |x Materials. | |
| 650 | 6 | |a Énergies renouvelables |x Recherche. | |
| 650 | 6 | |a Énergie |x Stockage |x Matériaux. | |
| 650 | 6 | |a Énergie solaire |x Matériaux. | |
| 650 | 7 | |a TECHNOLOGY & ENGINEERING |x Mechanical. |2 bisacsh | |
| 650 | 7 | |a Renewable energy sources |x Research |2 fast | |
| 650 | 7 | |a Solar energy |x Materials |2 fast | |
| 650 | 7 | |a Energies renovables |x Investigació. |2 lemac | |
| 650 | 7 | |a Energia |x Emmagatzematge. |2 lemac | |
| 650 | 7 | |a Energia solar. |2 lemac | |
| 655 | 4 | |a Llibres electrònics. | |
| 700 | 1 | |a Tiwari, Ashutosh, |d 1978- |e editor. | |
| 700 | 1 | |a Valyukh, Sergiy, |e editor. | |
| 776 | 0 | 8 | |i Print version: |t Advanced energy materials. |d Hoboken, New Jersey : John Wiley & Sons, [2014] |z 9781118686294 |w (DLC) 2013051272 |
| 830 | 0 | |a Advance materials series. | |
| 856 | 4 | 0 | |u https://ebookcentral.uam.elogim.com/lib/uam-ebooks/detail.action?docID=1624263 |z Texto completo |
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