AI-Driven Innovations in Electrochemical Technologies for Sustainable Energy Solutions blends principles of data science, materials engineering, and energy technology to offer a forward-looking exploration of how Artificial Intelligence is reshaping the design, optimisation, and performance of electrochemical technologies.
Across nine well-structured chapters, the book progresses from foundational principles of AI-integrated electrochemical systems to advanced applications in batteries, fuel cells, supercapacitors, and electrolysers. Topics include AI-assisted materials discovery, performance optimisation, real-time monitoring, predictive maintenance, and system-level energy management. Ethical, environmental, and policy considerations surrounding AI adoption are also examined, along with case studies that demonstrate real-world impact.
With its interdisciplinary perspective and emphasis on practical innovations, this book equips readers with a deep understanding of how AI reduces experimentation time, streamlines design processes, and drives next-generation sustainable energy solutions.
Key Features
Comprehensive coverage of AI-enhanced electrochemical systems
Real-world case studies and application-driven insights
Focus on AI-assisted material discovery, optimisation, and predictive maintenance
Discussions on the ethical, environmental, and policy dimensions
Forward-looking perspectives on integrating AI with sustainable energy and healthcare technologies
Target Readership
Researchers, scientists, graduate students and industry professionals in electrochemistry, materials science, renewable energy, and AI.
