Advanced Materials for Battery Separators 1st Edition

Grab the edge in battery technology with Advanced Materials for Battery Separators, 1st Edition — a definitive, contemporary guide by Sabu Thomas, Didier Rouxel, Nandakumar Kalarikkal, Bicy Kottathodi, and Hanna J Maria. This expertly written volume translates complex materials science into practical strategies for designing safer, higher-performance separators used across lithium‑ion, sodium‑ion, and emerging solid‑state batteries.

Discover why separator selection is pivotal to cell safety, energy density, and lifecycle cost. The book explores cutting‑edge polymer matrices, ceramic composites, nanostructured coatings, and surface functionalization methods that enhance ionic conductivity, thermal stability, mechanical strength, and shutdown behavior. Detailed discussions of manufacturing techniques, characterization tools, and failure‑mode analysis make it indispensable for researchers and product developers aiming to scale lab breakthroughs into commercially viable components.

Engineered for a global audience — from R&D teams in North America and Europe to manufacturing hubs in Asia‑Pacific — this edition balances rigorous theory with real‑world applications relevant to electric vehicles, consumer electronics, and grid energy storage. Environmental and recycling considerations are woven throughout, helping stakeholders meet regulatory and sustainability targets while optimizing cost and performance.

Whether you’re a materials scientist, battery engineer, graduate student, or procurement manager, this book provides actionable insights and a roadmap for next‑generation separator design. Clear diagrams, comparative data, and case studies accelerate decision‑making in both academic and industrial settings.

Strengthen your battery projects with authoritative guidance. Order Advanced Materials for Battery Separators, 1st Edition today and equip your team with the knowledge to innovate safer, more efficient energy storage solutions.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.