Part 1. Fundamentals
 
Chapter 1: Fundamentals of Nanomaterials in Energy Systems
Chapter 2: Basics of Surface Defects: Types, Formation, and Impact
Chapter 3: Fundamentals of Interfacial Defects in Materials Science: Types, Formation, and Classification
Chapter 4: Thermodynamics and Kinetics of Formation of Surface and Interfacial Defects
Chapter 5: Defects as Catalytic Sites in Energy Chemistry
Chapter 6: Advanced Characterization Techniques for Defect and Interface Engineering
Chapter 7: Computational Modeling of Defects in Nanomaterials
Chapter 8: Defect Healing and Control Strategies in Energy Systems
Chapter 9: Future frontiers in defect science for advanced energy Technologies
 
Part 2. Defects and Interface Engineering in Energy Conversion
 
Chapter 10: Defects and Interface Engineering of MXenes: Heterojunction Hybrid Catalysts for Hydrogen Production
Chapter 11: Defect and Interface Engineering in Electrocatalytic CO2 Reduction
Chapter 12: Defect and Interface Engineering in Fuel Production
Chapter 13: Defect and Interface Engineering in Electrochemical Valorization of Biomass to Value-added Chemicals
Chapter 14: Defect and Interface Engineering in Fuel Cells
Chapter 15: Defect and Interface Engineering in electrolyzers
Chapter 16: Defect and Interface Engineering for the Oxygen Reduction Reaction
 
Part 3. Defects and Interface Engineering in Energy Storage
 
Chapter 17: Defect and Interface Engineering in Li-ion batteries
Chapter 18: Defects and interface engineering in Na-ion batteries
Chapter 19: Defect and Interface Engineering in K-ion batteries
Chapter 20: Defect and Interface Engineering in Li-air batteries
Chapter 21: Defect and Interface Engineering in Zinc-air batteries
Chapter 22: Addressing Surface and Interfacial Defects in Lithium-Sulfur Batteries
Chapter 23: Engineering Defects in Advanced Battery Systems
Chapter 24: Defect and Interface Engineering in Electrochemical pseudocapacitors based on carbon
Chapter 25: Metal oxide Based Electrochemical supercapacitors: Performance Enhancement by Defects and Interface Engineering
Chapter 26: Defect and Interface Engineering in Electrochemical Pseudocapacitors Based on Pseudocapacitive Materials