ELECTRODE BODY AND RECHARGEABLE BATTERY

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Takashi Nakazono of Toyohashi-shi (JP)

ELECTRODE BODY AND RECHARGEABLE BATTERY - A simplified explanation of the abstract

This abstract first appeared for US patent application 18529809 titled 'ELECTRODE BODY AND RECHARGEABLE BATTERY

The patent application describes an electrode body with a substrate acting as a collector, a mixture layer containing an electrode active material, and an insulation layer with an insulative material adjacent to the mixture layer. In the interface between the mixture layer and the insulation layer, the mixture layer extends over and overlaps the insulation layer covering the substrate's surface. The insulation layer's interfacial surface facing the mixture layer has undulations wider than the electrode active material's particle size.

• The electrode body includes a substrate, a mixture layer, and an insulation layer.
• The mixture layer contains an electrode active material, while the insulation layer has an insulative material.
• In the interfacial region, the mixture layer extends over and overlaps the insulation layer.
• The undulations on the insulation layer's surface facing the mixture layer are wider than the electrode active material's particle size.

Potential Applications: - Lithium-ion batteries - Energy storage systems - Portable electronic devices

Problems Solved: - Enhanced electrode performance - Improved battery efficiency - Increased energy storage capacity

Benefits: - Longer battery life - Higher energy density - Enhanced overall device performance

Commercial Applications: Title: Advanced Electrode Technology for High-Performance Batteries This technology can be utilized in the production of high-performance batteries for various industries, including consumer electronics, electric vehicles, and renewable energy storage systems. The innovation offers improved energy storage capacity and efficiency, making it a valuable asset in the rapidly growing battery market.

Prior Art: Readers can explore prior research on electrode materials, insulation layers, and battery technology to understand the evolution of this innovative electrode body design.

Frequently Updated Research: Researchers are continually exploring new materials and designs to enhance battery performance and energy storage capabilities. Stay updated on the latest advancements in electrode technology to leverage the full potential of this innovation.

Questions about Electrode Body Technology: 1. How does the electrode active material impact the performance of the battery? The electrode active material plays a crucial role in determining the battery's capacity, voltage, and overall performance. It directly influences the energy storage capabilities and efficiency of the battery.

2. What are the key considerations when designing insulation layers for electrode bodies? Designing insulation layers involves selecting materials with high dielectric strength, thermal stability, and compatibility with the electrode active material. These factors ensure the insulation layer effectively separates the electrodes and prevents short circuits in the battery.

Original Abstract Submitted

An electrode body includes a substrate serving as a collector, a mixture layer formed on the substrate and containing an electrode active material, and an insulation layer formed on the substrate adjacent to the mixture layer. The insulation layer contains an insulative material. In an interfacial region of the mixture layer and the insulation layer, the mixture layer extends over and overlaps the insulation layer that covers a surface of the substrate. Further, an interfacial surface of the insulation surface interfacing the mixture layer includes undulations having an undulation width that is greater than a particle size of the electrode active material.