Rajput S., Parida S., Sharma A., Sonika. Dielectric Materials for Energy Storage and Energy Harvesting Devices

Abingdon: Routledge, 2023. — 267 p.As the demand for energy harvesting and storage devices grows, this book will be valuable for researchers to learn about the most current achievements in this sector.
Sustainable development systems are centered on three pillars: economic development, environmental stewardship, and social. One of the ideas established to achieve balance between these pillars is to minimize the usage of nonrenewable energy sources. Harvesting energy from the surrounding environment and converting it into electrical power is one viable solution to this problem. In recent years, there has been a surge in the development of new energy generation technologies such as solar, wind, and thermal energy to replace fossil fuel energy supplies with cleaner renewable ones. Energy harvesting systems have emerged as a key study topic and are rapidly expanding.Preface.
List of Contributors.
List of Figures.
List of Tables.
List of Abbreviations.
Dielectric Properties of Nanolayers for Next-generation Supercapacitor Devices.
Ferroelectrics: Their Emerging Role in Renewable Energy Harvesting.
Polymer Nanocomposite Material for Energy Storage Application.
Carbon-based Polymer Composites as Dielectric Materials for Energy Storage.
Role of 2D Dielectric Materials for Energy-harvesting Devices and their Application for Energy Improvements.
Effect of Lanthanide Substitution on the Dielectric, Ferroelectric and Energy-storage Properties of PZT Ceramics.
Ferroelectric Properties of Terbium-doped Multiferroics.
Advances in Sr and Co Doped Lanthanum Ferrite Perovskites as Cathode Application in SOFCs.
Multiferroics: Multifunctional Material.
Index.
About the Editors.