This book covers basic concepts, chemistries, and properties along with theoretical consideration in designing new 2D nanomaterials, especially for energy applications.
This book covers basic concepts, chemistries, and properties along with theoretical consideration in designing new 2D nanomaterials, especially for energy applications.
Dr. Ram Gupta is Associate Professor at Pittsburg State University. Dr. Gupta's research focuses on green energy production and storage using conducting polymers and composites, electrocatalysts for fuel cells, nanomaterials, optoelectronics and photovoltaics devices, organic-inorganic hetero-junctions for sensors, nanomagnetism, bio-based polymers, bio-compatible nanofibers for tissue regeneration, scaffold and antibacterial applications, and biodegradable metallic implants. Dr. Gupta has published over 200 peer-reviewed articles, made over 275 national/international/ regional presentations, chaired many sessions at national/international meetings, wrote several book chapters, and received over $2 million for research and educational activities from external agencies. He serves as associate editor, guest editor, and editorial board member for various journals.
Inhaltsangabe
Part 1: Introduction. 1. 2D Nanomaterials: An Introduction. 2. Chemistries of 2D Nanomaterials. 3. Importance of 2D Nanomaterials for Energy. 4. Theoretical Understanding of 2D Nanomaterials for Energy Applications. 5. Theoretical Consideration in Designing New 2D Nanomaterials for Energy Applications. 6. Types of Energy Devices and Working Principles. Part 2: Synthesis, Characterizations and Properties. 7. Bottom-Up Synthesis of 2D Nanomaterials. 8. Top-Down Synthesis of 2D Nanomaterials. 9. 2D Nanomaterials Using Thin Film Deposition Technologies. 10. Advanced Characterization Techniques. 11. Charge-Transportation and Electrochemical Properties of 2D Nanomaterials. 12. Electrolytes for 2D Materials. 13. Effect of Exfoliation on Structural and Electrochemical Properties. 14. Methods to Functionalize 2D Nanomaterials. 15. Morphological Aspects of 2D Nanomaterials for Energy Applications. 16. Tuning of Bandgap and Electronic Properties for Energy Applications. 17. Nanocomposites of 2D Materials for Enhanced Electrochemical Properties. 18. Toxicity and Risk Assessment of 2D Materials for Energy Applications.
Part 1: Introduction. 1. 2D Nanomaterials: An Introduction. 2. Chemistries of 2D Nanomaterials. 3. Importance of 2D Nanomaterials for Energy. 4. Theoretical Understanding of 2D Nanomaterials for Energy Applications. 5. Theoretical Consideration in Designing New 2D Nanomaterials for Energy Applications. 6. Types of Energy Devices and Working Principles. Part 2: Synthesis, Characterizations and Properties. 7. Bottom-Up Synthesis of 2D Nanomaterials. 8. Top-Down Synthesis of 2D Nanomaterials. 9. 2D Nanomaterials Using Thin Film Deposition Technologies. 10. Advanced Characterization Techniques. 11. Charge-Transportation and Electrochemical Properties of 2D Nanomaterials. 12. Electrolytes for 2D Materials. 13. Effect of Exfoliation on Structural and Electrochemical Properties. 14. Methods to Functionalize 2D Nanomaterials. 15. Morphological Aspects of 2D Nanomaterials for Energy Applications. 16. Tuning of Bandgap and Electronic Properties for Energy Applications. 17. Nanocomposites of 2D Materials for Enhanced Electrochemical Properties. 18. Toxicity and Risk Assessment of 2D Materials for Energy Applications.
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