Sustainable Materials for Next Generation Energy Devices: Challenges and Opportunities
Editat de Kuan Yew Cheong, Lung-Chien Chenen Limba Engleză Paperback – 4 dec 2020
- Provides a concise resource for readers interested in sustainable and green functional materials for energy conversion and storage devices
- Emphasizes sustainable and green concepts in the design of energy devices based on renewable functional materials
- Presents a survey of both the challenges and opportunities available for renewable functional materials in the development of energy devices
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Specificații
ISBN-13: 9780128206287
ISBN-10: 0128206284
Pagini: 402
Ilustrații: 100 illustrations (25 in full color)
Dimensiuni: 152 x 229 mm
Greutate: 0.54 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128206284
Pagini: 402
Ilustrații: 100 illustrations (25 in full color)
Dimensiuni: 152 x 229 mm
Greutate: 0.54 kg
Editura: ELSEVIER SCIENCE
Cuprins
Part 1: Electrochemical systems and energy storage
1. Electrochemical energy storage devices
2. Nanoarchitectured conducting polymers: Rational design and relative activity for next-generation supercapacitors
3. Current progress in the development of Fe-air batteries and their prospects for next-generation batteries
4. Functional material developments of fuel cells and the key factors for real commercialization of next-generation energy devices
Part 2: Energy conversion and harvesting
5. Graphene and its derivatives, synthesis route, and mechanism for photovoltaic solar cell applications
6. Solution-processed quantum dot-sensitized solar cell based on “green materials
7. Colloidal quantum dots based solar cells
8. Future perspectives of perovskite solar cells: Metal oxide-based inorganic hole-transporting materials
9. Recent advancement in sustainable energy harvesting using piezoelectric materials
Part 3: Advanced sustainable energy, materials, and device concepts
10. An approach to designing smart future electronics using nature-driven biopiezoelectric/triboelectric nanogenerators
11. Polysaccharide-based polymer electrolytes for future renewable energy sources
12. Biomass-derived functional carbon nanomaterials for the development of futuristic energy devices
13. First-principles materials design for graphene-based sensor applications
14. Recycled silicon waste as a sustainable energy material
1. Electrochemical energy storage devices
2. Nanoarchitectured conducting polymers: Rational design and relative activity for next-generation supercapacitors
3. Current progress in the development of Fe-air batteries and their prospects for next-generation batteries
4. Functional material developments of fuel cells and the key factors for real commercialization of next-generation energy devices
Part 2: Energy conversion and harvesting
5. Graphene and its derivatives, synthesis route, and mechanism for photovoltaic solar cell applications
6. Solution-processed quantum dot-sensitized solar cell based on “green materials
7. Colloidal quantum dots based solar cells
8. Future perspectives of perovskite solar cells: Metal oxide-based inorganic hole-transporting materials
9. Recent advancement in sustainable energy harvesting using piezoelectric materials
Part 3: Advanced sustainable energy, materials, and device concepts
10. An approach to designing smart future electronics using nature-driven biopiezoelectric/triboelectric nanogenerators
11. Polysaccharide-based polymer electrolytes for future renewable energy sources
12. Biomass-derived functional carbon nanomaterials for the development of futuristic energy devices
13. First-principles materials design for graphene-based sensor applications
14. Recycled silicon waste as a sustainable energy material