As the global shift toward sustainable transportation accelerates, electric vehicles (EVs) are leading the way — and at the heart of every EV lies an energy storage revolution. Advanced Battery & Fuel Cell Technologies: Powering the Future of Electric Vehicles offers an in-depth exploration of how modern battery and fuel cell systems are transforming the automotive and energy industries. From historical context to cutting-edge chemistry, this course provides the knowledge you need to understand how electric power drives innovation and environmental change.

You’ll begin by tracing the fascinating evolution of electric vehicles, from their early rise in the 19th century to their decline and eventual resurgence in the 21st century. This historical foundation provides valuable insight into how technological progress and market forces shape innovation. You’ll then move into the engineering core of the course — exploring EV powertrains, electric motors, and energy storage systems.

A major section of the course focuses on chemical power sources, where you’ll learn how batteries and fuel cells convert chemical energy into electrical energy. You’ll study the principles behind different technologies, including lead–acid, nickel-based, and lithium-ion batteries, as well as emerging fuel cell systems and ultracapacitors. Each lesson is designed to bridge theory with real-world applications, helping you understand the materials, efficiency, and environmental impact of each system.

By the end of this course, you’ll have a deep understanding of how battery chemistry, design, and performance directly influence the capabilities of modern electric vehicles. Whether you’re interested in advancing your career in renewable energy, automotive engineering, or sustainable design, this course will empower you with the technical and conceptual knowledge needed to thrive in the clean energy revolution.