BATTERY

Organization Name

Panasonic Intellectual Property Management Co., Ltd.

Inventor(s)

Yumi Miyamoto of Osaka (JP)

Mitsuhiro Murata of Hyogo (JP)

BATTERY - A simplified explanation of the abstract

This abstract first appeared for US patent application 18732482 titled 'BATTERY

The abstract describes a battery with a positive electrode, a negative electrode, and a solid electrolyte layer in between. The positive electrode material includes a positive electrode active material represented by composition formula (LiM1)O, where M1 is a transition metal element.

• The battery includes a positive electrode, negative electrode, and solid electrolyte layer.
• The positive electrode material contains a positive electrode active material represented by composition formula (LiM1)O.
• M1 in the formula is a transition metal element, and the composition satisfies 0<α1<2.

Potential Applications: - Energy storage in portable electronic devices - Electric vehicles - Renewable energy storage systems

Problems Solved: - Enhanced battery performance - Improved energy density - Increased safety due to the solid electrolyte layer

Benefits: - Longer battery life - Faster charging capabilities - Safer operation

Commercial Applications: Title: Advanced Battery Technology for Energy Storage Solutions This technology can be utilized in the development of high-performance batteries for various commercial applications, including consumer electronics, electric vehicles, and grid energy storage systems. The market implications include increased efficiency, reliability, and safety in energy storage solutions.

Prior Art: Readers can explore prior art related to solid electrolyte batteries, transition metal elements in battery technology, and advancements in positive electrode materials.

Frequently Updated Research: Stay updated on the latest research regarding solid electrolyte batteries, transition metal elements in battery technology, and advancements in positive electrode materials.

Questions about Battery Technology: 1. How does the composition formula (LiM1)O contribute to the performance of the battery? - The composition formula enhances the battery's energy density and overall efficiency by utilizing transition metal elements in the positive electrode material.

2. What are the potential challenges in scaling up the production of batteries using this technology? - Scaling up production may face challenges related to cost, material availability, and manufacturing processes that need to be optimized for mass production.

Original Abstract Submitted

A battery of the present disclosure includes a positive electrode, a negative electrode, and a solid electrolyte layer positioned between the positive electrode and the negative electrode. The positive electrode includes a positive electrode material. The positive electrode material includes a positive electrode active material and a first solid electrolyte material. The positive electrode active material includes a material represented by composition formula (1): (LiM1)O. In the composition formula (1), M1 is at least one selected from the group consisting of transition metal elements, and α1 satisfies 0<α1<2.