22129cam a2200925 i 4500 ocn870211377 OCoLC 20171031101239.0 m o d cr ||||||||||| 140206s2014 nju ob 001 0 eng 2014005194 9781118904848 (epub) 1118904842 (epub) 9781118904893 (pdf) 1118904893 (pdf) 9781118686294 (cloth) 9781118904923 1118904923 1118686292 9781118686294 9781306427166 1306427169 NZ1 15495777 DEBSZ 431623732 DEBBG BV041877685 (OCoLC)870211377 (OCoLC)927509120 (OCoLC)961627197 (OCoLC)962640664 DLC eng rda DLC YDX N$T EBLCP CUS DG1 YDXCP COO IDEBK CDX RIV UBY RECBK RRP OCLCO E7B DEBSZ DG1 pcc MAIN TJ808.6 TEC 009070 bisacsh 621.31028/4 23 Advanced energy materials / edited by Ashutosh Tiwari and Sergiy Valyukh. [electronic resource] Hoboken, New Jersey : John Wiley & Sons, [2014] 1 online resource. text rdacontent computer rdamedia online resource rdacarrier Advance materials series Includes bibliographical references and index. 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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. Description based on print version record and CIP data provided by publisher. Renewable energy sources Research. Energy storage Materials. Solar energy Materials. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Energies renovables Investigació. lemac Energia Emmagatzematge. lemac Energia solar. lemac Energy storage - Materials. Llibres electrònics. Electronic books. Tiwari, Ashutosh, 1978- editor of compilation. Valyukh, Sergiy editor of compilation. Print version: Advanced energy materials Hoboken, New Jersey : John Wiley & Sons, [2014] 9781118686294 (DLC) 2013051272 Advance materials series. http://onlinelibrary.wiley.com/book/10.1002/9781118904923 Wiley Online Library ddc BK 207266 207266