This essential resource covers the entire spectrum of metal-air batteries, their working principles, recent advancement, and future perspectives. Chapters address materials design, electrochemistry, and architectural aspects. This will be used by a wide range of readers including those in academia and industries worldwide.
This essential resource covers the entire spectrum of metal-air batteries, their working principles, recent advancement, and future perspectives. Chapters address materials design, electrochemistry, and architectural aspects. This will be used by a wide range of readers including those in academia and industries worldwide.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr. Ram Gupta is an Associate Professor at Pittsburg State University. Dr. Gupta's research focuses on bio-based polymers, bio-compatible nanofibers for tissue regeneration, scaffold, and antibacterial applications, bio-degradable metallic implants, green energy production, and storage using conducting polymers and composites, electrocatalysts for fuel cells, nanomaterials, optoelectronics and photovoltaics devices, organic-inorganic hetero-junctions for sensors, nanomagnetism, Dr. Gupta has published over 225 peer-reviewed articles, made over 300 national/international/ regional presentations, chaired many sessions at national/international meetings, as well as writing and editing many books/chapters for the American Chemical Society, CRC, and Elsevier publishers. He has received over two million dollars for research and educational activities from external agencies and is serving as associate editor, guest editor, and editorial board member for various journals.
Inhaltsangabe
FUNDAMENTALS. Metal air batteries: An introduction. Materials and electrochemistry of metal air batteries. Characterization techniques in metal air batteries. Approaches to enhance electrochemical properties of electrode materials. Architectural aspects of metal air batteries. Mathematical modeling for enhanced electrochemical properties. ELECTRODE MATERIALS AND TECHNOLOGIES. Materials and technologies of Li air batteries. Materials and technologies of Zn air batteries. Materials and technologies of Al air batteries. Materials and technologies of other metal air batteries. Carbon based electrocatalysts for metal air batteries. 0D materials as electrocatalysts for metal air batteries. 1D materials as electrocatalysts for metal air batteries. 2D materials as electrocatalysts for metal air batteries. 3D materials as electrocatalysts for metal air batteries. Metal oxide based electrocatalysts for metal air batteries. Chalcogenides as electrocatalysts for metal air batteries. Phosphides as bifunctional electrocatalysts for metal air batteries. Perovskites as bifunctional electrocatalysts for metal air batteries. Single atom catalysts for metal air batteries. Phase engineered materials as efficient electrocatalysts for metal air batteries. Active site enhancement through morphological control and doping. Bio derived electrocatalyst for metal air batteries. ELECTROLYTES AND BATTERY DESIGN. Non aqueous electrolytes. Aqueous electrolytes. Ionic electrolytes. Hybrid electrolytes. Hydrogel electrolytes. Polymer electrolytes. Novel architectural designs for improved performance. RECENT ADVANCES, CHALLENGES, AND FUTURE PERSPECTIVES. Solid state metal air batteries. Flexible metal air batteries. Wearable metal air batteries. Challenges in metal air batteries.
FUNDAMENTALS. Metal air batteries: An introduction. Materials and electrochemistry of metal air batteries. Characterization techniques in metal air batteries. Approaches to enhance electrochemical properties of electrode materials. Architectural aspects of metal air batteries. Mathematical modeling for enhanced electrochemical properties. ELECTRODE MATERIALS AND TECHNOLOGIES. Materials and technologies of Li air batteries. Materials and technologies of Zn air batteries. Materials and technologies of Al air batteries. Materials and technologies of other metal air batteries. Carbon based electrocatalysts for metal air batteries. 0D materials as electrocatalysts for metal air batteries. 1D materials as electrocatalysts for metal air batteries. 2D materials as electrocatalysts for metal air batteries. 3D materials as electrocatalysts for metal air batteries. Metal oxide based electrocatalysts for metal air batteries. Chalcogenides as electrocatalysts for metal air batteries. Phosphides as bifunctional electrocatalysts for metal air batteries. Perovskites as bifunctional electrocatalysts for metal air batteries. Single atom catalysts for metal air batteries. Phase engineered materials as efficient electrocatalysts for metal air batteries. Active site enhancement through morphological control and doping. Bio derived electrocatalyst for metal air batteries. ELECTROLYTES AND BATTERY DESIGN. Non aqueous electrolytes. Aqueous electrolytes. Ionic electrolytes. Hybrid electrolytes. Hydrogel electrolytes. Polymer electrolytes. Novel architectural designs for improved performance. RECENT ADVANCES, CHALLENGES, AND FUTURE PERSPECTIVES. Solid state metal air batteries. Flexible metal air batteries. Wearable metal air batteries. Challenges in metal air batteries.
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