Abstract
The development of next-generation batteries is critical to meeting the growing global demand for energy storage solutions. Chemical engineering plays a pivotal role in advancing battery technologies by improving material design, optimizing electrochemical processes, and enhancing production techniques. This article explores the role of chemical engineering in the development of next-generation batteries, including innovations in materials science, electrode design, electrolytes, and battery architectures. The paper also discusses the challenges faced in scaling up new battery technologies and the future prospects for sustainable, high-performance energy storage systems.
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