Materials for Energy Production, Conversion, and Storage
Herausgeber: Johnson M, Jenitta; Thomas, Sabu; Salim, Nisa
Materials for Energy Production, Conversion, and Storage
Herausgeber: Johnson M, Jenitta; Thomas, Sabu; Salim, Nisa
- Gebundenes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
This volume provides a comprehensive review of energy production, management and its challenges pertaining to various materials including different material fabrication strategies, challenges in energy management, and factors affecting the energy storage and conversion focussing on the high entropy and phase change-based materials.
Andere Kunden interessierten sich auch für
- Arthur A. Tracton (ed.)Coatings Materials and Surface Coatings293,99 €
- Borate Phosphors172,99 €
- Sustainable Energy Storage in the Scope of Circular Economy186,99 €
- Robert A. HugginsEnergy Storage55,99 €
- Muhammad Ikram2D-Materials for Energy Harvesting and Storage Applications124,99 €
- Muhammad Ikram2D-Materials for Energy Harvesting and Storage Applications171,19 €
- Abdulrahman Shahul HameedPhosphate Based Cathodes and Reduced Graphene Oxide Composite Anodes for Energy Storage Applications74,99 €
-
-
-
This volume provides a comprehensive review of energy production, management and its challenges pertaining to various materials including different material fabrication strategies, challenges in energy management, and factors affecting the energy storage and conversion focussing on the high entropy and phase change-based materials.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 320
- Erscheinungstermin: 10. April 2024
- Englisch
- Abmessung: 234mm x 156mm x 21mm
- Gewicht: 667g
- ISBN-13: 9781032313047
- ISBN-10: 1032313048
- Artikelnr.: 69483543
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 320
- Erscheinungstermin: 10. April 2024
- Englisch
- Abmessung: 234mm x 156mm x 21mm
- Gewicht: 667g
- ISBN-13: 9781032313047
- ISBN-10: 1032313048
- Artikelnr.: 69483543
Jenitta Johnson M is working as a doctoral researcher at Center of Advanced Photonics & Process Analysis (CAPPA) in Munster Technological University (MTU), Ireland. Nisa Salim is a Vice Chancellors Initiative Research Fellow at the Swinburne University of Technology. Sabu Thomas is currently Vice-Chancellor of Mahatma Gandhi University, Kerala, India, and the Founder Director and Professor of the International and Interuniversity Centre for Nanoscience and Nanotechnology, Mahatma Gandhi University, Kerala, India.
1: Synthesis of Micro and Nanostructured Materials by Laser-Assisted
Methods Towards Energy Production, Conversion, and Storage Applications
2: Phase Change Materials for Energy Harvesting and Management for Energy
Production, Storage, and Conversion
3: Porous Carbon-based Materials for Energy Production, Storage, and
Conversion
4: Synthetic Strategies for the Preparation of Nanoporous Carbons
5: Perspectives on Natural Clay Composites for Energy Generation, Storage,
and Conversion
6: Graphene-based Materials for Energy Production, Conversion, and Storage
7: Anodic Oxides-based Active Layers for Energy Production, Conversion, and
Storage
8: Green and Bio-waste-based Materials for Energy Production, Conversion,
Storage, and Hybrid Technologies
9: Metal¿organic Framework-based Materials for Energy Production,
Conversion, and Storage
10: Electrospinning as an Efficient Strategy for the Designing and
Fabrication of Architectures for Energy Production, Conversion, and Storage
Devices
11: 3D Printed Materials for High Energy Production, Conversion, and
Storage Devices
12: Two-dimensional Molybdenum Disulphide-based Materials: Synthesis,
Modification and Applications in Supercapacitor Technology
13: Recent Advances in Mesoporous Metal-based Materials for Energy
Production, Storage, and Conversion
14: MXene-based 2D Materials for Energy Production, Conversion and Storage
Applications
15: Aerogels-based Nanostructured Materials for Energy Generation,
Conversion, and Storage Applications
16: Hydrogels-based Nanostructured Materials for Energy Generation,
Conversion, and Storage Applications
Methods Towards Energy Production, Conversion, and Storage Applications
2: Phase Change Materials for Energy Harvesting and Management for Energy
Production, Storage, and Conversion
3: Porous Carbon-based Materials for Energy Production, Storage, and
Conversion
4: Synthetic Strategies for the Preparation of Nanoporous Carbons
5: Perspectives on Natural Clay Composites for Energy Generation, Storage,
and Conversion
6: Graphene-based Materials for Energy Production, Conversion, and Storage
7: Anodic Oxides-based Active Layers for Energy Production, Conversion, and
Storage
8: Green and Bio-waste-based Materials for Energy Production, Conversion,
Storage, and Hybrid Technologies
9: Metal¿organic Framework-based Materials for Energy Production,
Conversion, and Storage
10: Electrospinning as an Efficient Strategy for the Designing and
Fabrication of Architectures for Energy Production, Conversion, and Storage
Devices
11: 3D Printed Materials for High Energy Production, Conversion, and
Storage Devices
12: Two-dimensional Molybdenum Disulphide-based Materials: Synthesis,
Modification and Applications in Supercapacitor Technology
13: Recent Advances in Mesoporous Metal-based Materials for Energy
Production, Storage, and Conversion
14: MXene-based 2D Materials for Energy Production, Conversion and Storage
Applications
15: Aerogels-based Nanostructured Materials for Energy Generation,
Conversion, and Storage Applications
16: Hydrogels-based Nanostructured Materials for Energy Generation,
Conversion, and Storage Applications
1: Synthesis of Micro and Nanostructured Materials by Laser-Assisted
Methods Towards Energy Production, Conversion, and Storage Applications
2: Phase Change Materials for Energy Harvesting and Management for Energy
Production, Storage, and Conversion
3: Porous Carbon-based Materials for Energy Production, Storage, and
Conversion
4: Synthetic Strategies for the Preparation of Nanoporous Carbons
5: Perspectives on Natural Clay Composites for Energy Generation, Storage,
and Conversion
6: Graphene-based Materials for Energy Production, Conversion, and Storage
7: Anodic Oxides-based Active Layers for Energy Production, Conversion, and
Storage
8: Green and Bio-waste-based Materials for Energy Production, Conversion,
Storage, and Hybrid Technologies
9: Metal¿organic Framework-based Materials for Energy Production,
Conversion, and Storage
10: Electrospinning as an Efficient Strategy for the Designing and
Fabrication of Architectures for Energy Production, Conversion, and Storage
Devices
11: 3D Printed Materials for High Energy Production, Conversion, and
Storage Devices
12: Two-dimensional Molybdenum Disulphide-based Materials: Synthesis,
Modification and Applications in Supercapacitor Technology
13: Recent Advances in Mesoporous Metal-based Materials for Energy
Production, Storage, and Conversion
14: MXene-based 2D Materials for Energy Production, Conversion and Storage
Applications
15: Aerogels-based Nanostructured Materials for Energy Generation,
Conversion, and Storage Applications
16: Hydrogels-based Nanostructured Materials for Energy Generation,
Conversion, and Storage Applications
Methods Towards Energy Production, Conversion, and Storage Applications
2: Phase Change Materials for Energy Harvesting and Management for Energy
Production, Storage, and Conversion
3: Porous Carbon-based Materials for Energy Production, Storage, and
Conversion
4: Synthetic Strategies for the Preparation of Nanoporous Carbons
5: Perspectives on Natural Clay Composites for Energy Generation, Storage,
and Conversion
6: Graphene-based Materials for Energy Production, Conversion, and Storage
7: Anodic Oxides-based Active Layers for Energy Production, Conversion, and
Storage
8: Green and Bio-waste-based Materials for Energy Production, Conversion,
Storage, and Hybrid Technologies
9: Metal¿organic Framework-based Materials for Energy Production,
Conversion, and Storage
10: Electrospinning as an Efficient Strategy for the Designing and
Fabrication of Architectures for Energy Production, Conversion, and Storage
Devices
11: 3D Printed Materials for High Energy Production, Conversion, and
Storage Devices
12: Two-dimensional Molybdenum Disulphide-based Materials: Synthesis,
Modification and Applications in Supercapacitor Technology
13: Recent Advances in Mesoporous Metal-based Materials for Energy
Production, Storage, and Conversion
14: MXene-based 2D Materials for Energy Production, Conversion and Storage
Applications
15: Aerogels-based Nanostructured Materials for Energy Generation,
Conversion, and Storage Applications
16: Hydrogels-based Nanostructured Materials for Energy Generation,
Conversion, and Storage Applications