Solar Capacitors and Batteries (eBook)

Dive into the future of clean energy with this essential guide, offering a comprehensive look at the innovative power of batteries and supercapacitors for the efficient storage and utilization of solar power.

The storage of solar energy is as important as its harvesting. So far, solar energy has been primarily stored using electrochemistry-based batteries. Generally, batteries that can be charged with solar energy serve domestic and portable systems, especially in devices with low energy use. In addition to classic devices, innovative devices have been developed in recent years that provide both the conversion and storage of solar energy. In the last few years, supercapacitors have gained significant recognition due to their low cost, safe operation, fast charge-discharge cycles, high power density, and cyclic stability. This book comprehensively covers both batteries that can be charged with solar energy and photo-supercapacitors. Through expert insights and real-world case studies, this book offers an in-depth look at these innovative technologies and how they are shaping a more sustainable future.

Readers will find this volume:

• Introduces different systems that enable the conversion and storage of solar energy;
• Covers the systems for designing photovoltaic cells, storage units such as batteries and capacitors, and the structures and operating principles of integrated devices with conversion and storage functions;
• Explains device structures, working principles, and performance tests, and the highly efficient and innovative materials used in these systems;
• Explores cutting-edge technologies for the future of solar energy conversion and storage systems.

Audience

Chemists, physicists, engineers, students, educators, and policymakers working with solar-assisted capacitors and batteries.

Nurdan Demirci Sankir, PhD is a professor in the Materials Science and Nanotechnology Engineering Department at the TOBB University of Economics and Technology, Ankara, Turkey. She has edited eight books and is actively involved in research and consulting activities. Her expertise focuses on photovoltaic devices, solution-based thin-film manufacturing, solar-driven water splitting, photocatalytic degradation, and nanostructured semiconductors.

Mehmet Sankir, PhD is a professor in the Department of Materials Science and Nanotechnology Engineering at TOBB University of Economics and Technology and group leader of the Advanced Membrane Technologies Laboratory, Ankara, Turkey. He is actively involved in research and consulting activities and has edited eight books. His research focuses on membranes for fuel cells, flow batteries, hydrogen generation, and desalination.

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Dive into the future of clean energy with this essential guide, offering a comprehensive look at the innovative power of batteries and supercapacitors for the efficient storage and utilization of solar power. The storage of solar energy is as important as its harvesting. So far, solar energy has been primarily stored using electrochemistry-based batteries. Generally, batteries that can be charged with solar energy serve domestic and portable systems, especially in devices with low energy use. In addition to classic devices, innovative devices have been developed in recent years that provide both the conversion and storage of solar energy. In the last few years, supercapacitors have gained significant recognition due to their low cost, safe operation, fast charge-discharge cycles, high power density, and cyclic stability. This book comprehensively covers both batteries that can be charged with solar energy and photo-supercapacitors. Through expert insights and real-world case studies, this book offers an in-depth look at these innovative technologies and how they are shaping a more sustainable future. Readers will find this volume: Introduces different systems that enable the conversion and storage of solar energy; Covers the systems for designing photovoltaic cells, storage units such as batteries and capacitors, and the structures and operating principles of integrated devices with conversion and storage functions; Explains device structures, working principles, and performance tests, and the highly efficient and innovative materials used in these systems; Explores cutting-edge technologies for the future of solar energy conversion and storage systems. Audience Chemists, physicists, engineers, students, educators, and policymakers working with solar-assisted capacitors and batteries.