This book serves as a guide for beginners in the areas of thin films preparations, characterization, and device making, while also providing insight into the area for the experts. The advancement in the nanostructured materials for the development of devices is fully explored by the authors. Consistent with chemically deposited metal oxides increasing prominence for development of devices such supercapacitors, batteries and sensors, the book is idea for research engineers and technical staff if fabrication facilities.
This book serves as a guide for beginners in the areas of thin films preparations, characterization, and device making, while also providing insight into the area for the experts. The advancement in the nanostructured materials for the development of devices is fully explored by the authors. Consistent with chemically deposited metal oxides increasing prominence for development of devices such supercapacitors, batteries and sensors, the book is idea for research engineers and technical staff if fabrication facilities.
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Inhaltsangabe
Chapter 1. Porous composite materials for glucose sensing.- Chapter 2. Metal Chalcogenides Thin Films for Photoelectrochemical (PEC) Solar Cells.- Chapter 3. 2D materials for energy storage.- Chapter 4. Porous materials for electrocatalysis.- Chapter 5. Rare Earth Sulfide Based Thin Film Nanomaterials by Chemical Methods.- Chapter 6. 2D Materials for Supercapacitors.- Chapter 7. Thin Film Nanomaterials based on Rare earth based Selenide.- Chapter 8. Barium Zirconium Sulfide (BaZrS3) Chalcogenides for Perovskite Solar Cell Applications: Numerical Simulation Approach.- Chapter 9. Density Functional Theory (DFT) for Energy Conversion Systems.- Chapter 10. Metal based Phosphates/carbon hybrid nanostructures: Synthesis, Characterization and applications in energy storage.- Chapter 11. Recent advances in metal chalcogenides/carbon composites for supercapacitors.- Chapter 12. Review on carbon integrated Tungsten Chalcogenides (C@WX2 (X= S, Se, Te)) nanocomposites: Synthesis, Characterization, and supercapacitor Applications.- Chapter 13. Titanium Dioxide-Carbon Composites: Advances in Photocatalysis for Environmental Remediation and Sustainable Technology .- Chapter 14. Carbon Nanotubes for versatile applications.- Chapter 15. Transition Metal Chalcogenide MoS2 and Its Nanocomposites for Next-Generation Energy Storage.- Chapter 16. Application of metal oxides in proton exchange membrane fuel cells (PEMFCs) as free radical scavengers (FRS).- Chapter 17. Hollow Structured Transition Metal Sulfides and Selenides for Supercapacitor Application.- Chapter 18. Progress in Transition Metal chalcogenides-based cathodes for High-Efficiency Aqueous Zinc-Ion Batteries.- Chapter 19. Design and development of bimetallic selenides as electrode materials for supercapacitor applications.
Chapter 1. Porous composite materials for glucose sensing.- Chapter 2. Metal Chalcogenides Thin Films for Photoelectrochemical (PEC) Solar Cells.- Chapter 3. 2D materials for energy storage.- Chapter 4. Porous materials for electrocatalysis.- Chapter 5. Rare Earth Sulfide Based Thin Film Nanomaterials by Chemical Methods.- Chapter 6. 2D Materials for Supercapacitors.- Chapter 7. Thin Film Nanomaterials based on Rare earth based Selenide.- Chapter 8. Barium Zirconium Sulfide (BaZrS3) Chalcogenides for Perovskite Solar Cell Applications: Numerical Simulation Approach.- Chapter 9. Density Functional Theory (DFT) for Energy Conversion Systems.- Chapter 10. Metal based Phosphates/carbon hybrid nanostructures: Synthesis, Characterization and applications in energy storage.- Chapter 11. Recent advances in metal chalcogenides/carbon composites for supercapacitors.- Chapter 12. Review on carbon integrated Tungsten Chalcogenides (C@WX2 (X= S, Se, Te)) nanocomposites: Synthesis, Characterization, and supercapacitor Applications.- Chapter 13. Titanium Dioxide-Carbon Composites: Advances in Photocatalysis for Environmental Remediation and Sustainable Technology .- Chapter 14. Carbon Nanotubes for versatile applications.- Chapter 15. Transition Metal Chalcogenide MoS2 and Its Nanocomposites for Next-Generation Energy Storage.- Chapter 16. Application of metal oxides in proton exchange membrane fuel cells (PEMFCs) as free radical scavengers (FRS).- Chapter 17. Hollow Structured Transition Metal Sulfides and Selenides for Supercapacitor Application.- Chapter 18. Progress in Transition Metal chalcogenides-based cathodes for High-Efficiency Aqueous Zinc-Ion Batteries.- Chapter 19. Design and development of bimetallic selenides as electrode materials for supercapacitor applications.
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