Green Sustainable Process for Chemical and Environmental Engineering and Science: Solid-State Energy Storage - A Path to Environmental Sustainability offers an in-depth analysis of the synthesis methods, manufacturing techniques and underlying mechanisms of ionic and electronic-ion transport in various single phase and multi-phase components for electric power storage, such as lithium and sodium ion batteries, sulfur batteries, and lithium-metal electrochemical systems. Though solid-state batteries are not yet available on the market, many large corporations and small companies pursue the goal of implementing this technology for numerous applications and its transfer to other markets.
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Table of Contents
1. Next-generation energy storage concepts for environmental sustainability2. Solid state energy storage: a myth or reality?
3. Lithium-ion solid-state battery market: prospects and forecasts
4. Types of solid-state batteries for the next generation energy storage
5. Major materials challenges in solid-state battery technology
6. Interfacial phenomena in lithium-ion batteries and their observations at nanoscale
7. XPS/AES spectroscopy for evaluation of lithium ion transport at interfaces
8. In-situ/operando methods for investigation of ionic transport mechanisms in solid-state architectures
9. Decision making in battery manufacturing
10. Local degradation phenomena and post-mortem analysis relevant to the next- generation battery technology
11. Ceramic vs. glass-ceramic electrolytes for solid-state batteries
12. Solid-state batteries based on polymer nanocomposites
13. Potential application of sodium ion batteries for electric power grids
14. Solid-state energy storage for EV industry
15. Life cycle analysis for the emerging solid-state battery technology
16. Machine Learning Enabled Computational Screening of materials for the next-generation energy storage
17. Specifics of the battery management systems for solid-state battery technology
18. Problems of lithium dendrite formation in solid-state batteries
19. Composite lithium metal anodes for solid-state battery applications
Authors
Alevtina Smirnova Chemistry, Biology, and Health Sciences Department, South Dakota School of Mines and Technology (SDSMT), USA. Dr. Smirnova's research interests are focused on developing efficient and eco-friendly electric power generation and storage devices, such as supercapacitors, fuel cells, and batteries. She authored and co-authored over 200 publications, such as a o book, 13 book chapters, 5 patents, 6 patent applications, and over 180 manuscripts in peer reviewed journals and proceedings. Her research incorporate multi-disciplinary efforts regarding ionic and electronic transport mechanisms in solid and polymer materials, heterogeneous low and high temperature electro-catalysis, and new architectural designs of ionic/electronic conductors and nanocomposites produced by various materials deposition approaches, such supercritical fluids, physical vapor deposition, screen-printing, electron beam, and aerosol ink-jet printing. Abu Numan-Al-Mobin Chemistry, Biology, and Health Sciences Department, South Dakota School of Mines and Technology (SDSMT), USA. Research Scientist in the Chemistry, Biology, and Health Sciences Department, South Dakota School of Mines and Technology (SDSMT), USA Inamuddin Assistant Professor, Department of Applied Chemistry, Zakir Husain College of Engineering and Technology, Faculty of Engineering and Technology, Aligarh Muslim University, Aligarh, India.Dr. Inamuddin is an assistant professor at the Department of Applied Chemistry, Zakir Husain College of Engineering and Technology, Faculty of Engineering and Technology, Aligarh Muslim University, Aligarh, India. He has published about 210 research articles in various international scientific journals, 18 book chapters, and 180 edited books with multiple well-known publishers. His current research interests include ion exchange materials, a sensor for heavy metal ions, biofuel cells, supercapacitors, and bending actuators.
