Advanced Materials for Battery Separators

Advanced Materials for Battery Separators is a comprehensive guide to battery separators, covering their requirements, classifications, fabrication methods, characterization techniques, and physical and chemical properties. It is essential for engineers, researchers, and graduates in material science, electrochemistry, and polymer chemistry, as well as for engineers and technologists working in industry and the energy field.

Format: Paperback / softback
Length: 442 pages
Publication date: 25 June 2024
Publisher: Elsevier Science Publishing Co Inc

Advanced Materials for Battery Separators is a comprehensive guide to the use of battery separators in aqueous and non-aqueous batteries. It covers various aspects of separator requirements, classifications, fabrication methods, characterization techniques, and physical and chemical properties. The book highlights the challenges faced by separators and introduces new technologies developed to improve their performance.

The book is divided into several chapters, each focusing on a specific aspect of battery separators. Chapter 1 provides an overview of battery separators and their importance in energy storage. It discusses the different types of separators available, including polymeric, ceramic, and inorganic materials, and their properties. Chapter 2 discusses the requirements and classifications of battery separators, including their thickness, porosity, and conductivity. It also covers the different methods for the fabrication of separators, such as casting, extrusion, and coating. Chapter 3 discusses the experimental techniques used for the characterization of separators, including scanning electron microscopy (SEM), transmission electron microscopy (TEM), and X-ray diffraction (XRD). It also covers the physical and chemical properties of separators, such as their thermal stability, ionic conductivity, and mechanical strength. Chapter 4 discusses the challenges faced by separators in aqueous and non-aqueous batteries. It covers the degradation of separators due to chemical reactions, thermal cycling, and mechanical stress. It also discusses the development of new technologies to improve the performance of separators, such as nanocomposites, graphene, and carbon nanotubes. Chapter 5 concludes the book by providing a summary of the key findings and recommendations for future research.

Advanced Materials for Battery Separators is a valuable reference for engineers, research scholars, and graduates and post graduates primarily in the field of material science, electrochemistry, and polymer chemistry. It can also be useful for engineers and technologists working in both industry and the energy field. The book is well-written and easy to read, with numerous illustrations and diagrams to help illustrate the concepts. The chapters are well-organized and cover a wide range of topics, making it a comprehensive guide to battery separators.

In conclusion, Advanced Materials for Battery Separators is a valuable resource for anyone interested in the use of battery separators in energy storage. It provides a detailed description of their use in both aqueous and non-aqueous batteries, discusses the requirements and classifications of separators, and introduces new technologies developed to improve their performance. The book is well-written and easy to read, with numerous illustrations and diagrams to help illustrate the concepts. It is a valuable reference for engineers, research scholars, and graduates and post graduates primarily in the field of material science, electrochemistry, and polymer chemistry.

Weight: 450g
Dimension: 229 x 152 (mm)
ISBN-13: 9780128175071