Aerogels for Energy Saving and Storage
Aerogels for Energy Saving and Storage
Maria, Hanna J.; Mathew, Meldin; Thomas, Sabu; Nzihou, Ange
John Wiley & Sons Inc
08/2024
576
Dura
Inglês
9781119717638
Pré-lançamento - envio 15 a 20 dias após a sua edição
666
Chapter 1: The history, physical properties and energy-related applications of the aerogels
Chapter 2: Aerogels and their Composites in Energy Generation and Conversion Devices
Chapter 3: Metal Aerogels for Energy Storage and Conversion
Chapter 4: Aerogels using polymer composites
Chapter 5: Epoxide related aerogels; Sol-gel synthesis, property studies and energy applications
Chapter 6: CNT-based aerogels and their applications
Chapter 7: Silica Based Aerogels for Building Transparent Components
Chapter 8: Inorganic Aerogels and their Composites for Thermal Insulation in White Goods
Chapter 9: Natural Polymer-Based Aerogels for Filtration Applications
Chapter 10: ORGANIC AND CARBON AEROGELS
Chapter 11: Carbonaceous aerogels for fuel cells and supercapacitors
Chapter 12: Aerogels for electrocatalytic hydrogen production
Chapter 13: Clay-Based Aerogel composites
Chapter 14: Hybrid Aerogels for Energy Saving Applications
Chapter 15: Yet to come
Chapter 16: Theoretical Modeling of the Thermal and Mechanical Structure-Property Relationships in Aerogels
Chapter 17: Aerogels in energy: state of art and new challenges
Chapter 1: The history, physical properties and energy-related applications of the aerogels
Chapter 2: Aerogels and their Composites in Energy Generation and Conversion Devices
Chapter 3: Metal Aerogels for Energy Storage and Conversion
Chapter 4: Aerogels using polymer composites
Chapter 5: Epoxide related aerogels; Sol-gel synthesis, property studies and energy applications
Chapter 6: CNT-based aerogels and their applications
Chapter 7: Silica Based Aerogels for Building Transparent Components
Chapter 8: Inorganic Aerogels and their Composites for Thermal Insulation in White Goods
Chapter 9: Natural Polymer-Based Aerogels for Filtration Applications
Chapter 10: ORGANIC AND CARBON AEROGELS
Chapter 11: Carbonaceous aerogels for fuel cells and supercapacitors
Chapter 12: Aerogels for electrocatalytic hydrogen production
Chapter 13: Clay-Based Aerogel composites
Chapter 14: Hybrid Aerogels for Energy Saving Applications
Chapter 15: Yet to come
Chapter 16: Theoretical Modeling of the Thermal and Mechanical Structure-Property Relationships in Aerogels
Chapter 17: Aerogels in energy: state of art and new challenges