BATTERY AND MANUFACTURING METHOD OF BATTERY

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Masaharu Senoue of Seto-shi (JP)

BATTERY AND MANUFACTURING METHOD OF BATTERY - A simplified explanation of the abstract

This abstract first appeared for US patent application 18444366 titled 'BATTERY AND MANUFACTURING METHOD OF BATTERY

The abstract describes a battery with a unique structure involving a first electrode, a second electrode, and a separator. The first electrode has through holes that penetrate from one main surface to another, with the separator coating the inner walls of these holes. The second electrode is placed within these through holes, and the separator consists of two layers containing different inorganic particle groups with varying average particle sizes.

• The battery includes a first electrode with through holes, a second electrode, and a separator.
• The separator coats the inner walls of the through holes in the first electrode.
• Two layers in the separator contain different inorganic particle groups with varying average particle sizes.
• The second electrode is placed within the through holes of the first electrode.

Potential Applications: - This battery technology could be used in various electronic devices such as smartphones, laptops, and electric vehicles. - It may also find applications in renewable energy storage systems like solar power storage.

Problems Solved: - This technology addresses the need for improved battery performance and energy storage capacity. - It enhances the efficiency and reliability of batteries used in different devices and applications.

Benefits: - Increased energy storage capacity and longer battery life. - Enhanced performance and reliability in electronic devices. - Potential for faster charging times and improved overall efficiency.

Commercial Applications: Title: Advanced Battery Technology for Enhanced Energy Storage This technology could revolutionize the battery industry by providing more efficient and reliable energy storage solutions for various commercial applications. It could be particularly beneficial for companies in the electronics, automotive, and renewable energy sectors.

Prior Art: Readers interested in exploring prior art related to this technology may consider researching patents or publications in the field of battery technology, particularly focusing on advancements in electrode and separator design for improved energy storage.

Frequently Updated Research: Researchers and industry professionals may find value in staying updated on advancements in materials science, nanotechnology, and battery technology to further enhance the performance and efficiency of this innovative battery design.

Questions about Battery Technology: 1. How does the unique structure of this battery design contribute to its overall performance and efficiency? 2. What are the potential challenges or limitations associated with implementing this technology in commercial applications?

Original Abstract Submitted

A battery includes a first electrode, a second electrode, and a separator. The first electrode includes a first main surface and a second main surface. A plurality of through holes is formed in the first electrode. The through holes penetrate the first electrode from the first main surface to the second main surface. The separator coats an inner wall of each of the through holes. The second electrode is disposed in the through holes. The separator includes a first layer and a second layer. The first layer is disposed between the inner wall and the second layer. The first layer contains a first inorganic particle group having a first average particle size. The second layer contains a second inorganic particle group having a second average particle size. The second average particle size is smaller than the first average particle size.