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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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