Description
Nanomaterials for Green Energy
Micro and Nano Technologies Series
Coordinators: Bhanvase Bharat A., Pawade Vijay B., Dhoble Sanjay J., Sonawane Shirish, Ashokkumar Muthupandian
Language: EnglishSubjects for Nanomaterials for Green Energy:
Keywords
"Dry" "Wet"synthesis; Advanced materials; Advanced oxidation processes; Bulge instability; Bulk heterojunction; Catalysts; Cavitation; Classes of materials; Clean energy; Clean environment; Colloids; Droplet; Dye sensitized solar cells; Electret; Electrocatalysis; Electrowetting; Energy and environment; Environment-friendly materials; Fill factor; Fuel cell; Fuel cells; Graphene; Green energy; HTMs; Hydrogen evolution; Inorganic nanomaterials; Inorganic nanoparticles; Inorganic; LED; Li batterie
500 p. · 19x23.3 cm · Paperback
Description
/li>Contents
/li>Readership
/li>Biography
/li>Comment
/li>
Nanomaterials for Green Energy focuses on the synthesis, characterization and application of novel nanomaterials in the fields of green science and technology. This book contains fundamental information about the properties of novel nanomaterials and their application in green energy. In particular, synthesis and characterization of novel nanomaterials, their application in solar and fuel cells and batteries, and nanomaterials for a low-toxicity environment are discussed. It will provide an important reference resource for researchers in materials science and renewable energy who wish to learn more about how nanomaterials are used to create cheaper, more efficient green energy products.
1. Introduction to Advanced Nanomaterials 2. Synthesis of Multifunctional Inorganic Materials: From Micrometer to Nanometer Dimensions 3. Characterization Tools and Techniques for Nanomaterials 4. Energy Harvesting Using Droplet 5. Advanced Nanomaterials for Water Splitting and Hydrogen Generation 6. Novel Nanomaterials as Electrocatalysts for Fuel Cells 7. Synthesis of Nanomaterials for Fuel Cell Applications 8. Novel Nanomaterials for Solar Cell Devices 9. Recent Progress on Hole-Transporting Materials for Perovskite-Sensitized Solar Cells 10. Empowering the Future With Organic Solar Cell Devices 11. Graphene-Based Materials for Clean Energy Applications 12. Nanomaterials and Its Application for Clean Environment 13. White Light-Emitting Novel Nanophosphors for LED Applications 14. Scale-Up Technologies for Advanced Nanomaterials for Green Energy: Feasibilities and Challenges 15. Advanced Nanomaterials for Green Energy: Current Status and Future Perspectives
Materials scientists, engineers and those working in the green energy sector, wanting to learn more about how novel nanomaterials can help to create cheaper, more efficient green energy products
Dr. Vijay B. Pawade is an assistant professor in the Department of Applied Physics at the Laximarayan Institute of Technology, R.T.M. Nagpur University, Nagpur, India. His research focuses on rare earth-doped oxide materials and their applications in LEDs, solar cell devices and photocatalysis processes. He has published 36 research papers in refereed international peer reviewed journals and acts as a reviewer for journals published by Elsevier, Springer, Wiley, Taylor & Francis, RSC, and ACS. He has contributed 12 book chapters on different themes like nonmaterial synthesis, characterization and their applications in energy conversion and storage devices, QDs, Spectroscopy of Lanthanide etc.
Sanjay J. Dhoble is Professor of Physics in Rashtrasant Tukadoji Maharaj Nagpur University, India. His research focuses on the synthesis and characterization of solid state lighting nanomaterials as well as development of radiation dosimetry phosphors using thermoluminescence, mechanoluminescence and lyoluminescence techniques.
Professor Shirish Sonawane currently workings as Professor at NIT Warangal India and head SRIC center for sponsored research
- Provides fundamental information about the properties and application of new low-cost nanomaterials for green energy
- Shows how novel nanomaterials are used to create more efficient solar cells
- Offers solutions to common problems related to the use of materials in the development of energy- related technologies