BATTERY

Organization Name

Panasonic Intellectual Property Management Co., Ltd.

Inventor(s)

Takuji Tsujita of Osaka (JP)

BATTERY - A simplified explanation of the abstract

This abstract first appeared for US patent application 18732497 titled 'BATTERY

The abstract describes a battery with a positive electrode layer, a negative electrode layer, and a solid electrolyte layer between them. The positive electrode layer contains a compound capable of an electrochemical two-phase coexistence reaction with lithium, while the negative electrode layer includes a solid electrolyte material.

• Positive electrode layer contains a compound with a transition metal element and an oxoanion
• Negative electrode layer includes a solid electrolyte material
• Compound in positive electrode layer can undergo an electrochemical two-phase coexistence reaction with lithium
• Solid electrolyte material in negative electrode layer enhances battery performance
• Battery design aims to improve overall efficiency and longevity

Potential Applications: - Energy storage systems - Electric vehicles - Portable electronic devices

Problems Solved: - Enhanced battery performance - Increased energy density - Longer battery lifespan

Benefits: - Improved energy storage capabilities - Longer-lasting batteries - Enhanced safety features

Commercial Applications: Title: Advanced Battery Technology for Energy Storage Solutions This technology can be utilized in various industries such as renewable energy, automotive, and consumer electronics. It has the potential to revolutionize the way we store and utilize energy in different applications.

Prior Art: Readers can explore prior research on solid electrolyte materials and electrode design in lithium-ion batteries to understand the evolution of this technology.

Frequently Updated Research: Researchers are constantly exploring new materials and designs to further enhance the performance of batteries using solid electrolytes and advanced electrode materials.

Questions about Battery Technology: 1. How does the use of solid electrolyte materials impact battery performance? Solid electrolyte materials can improve battery safety, energy density, and overall efficiency by providing a stable interface between the electrodes.

2. What are the key challenges in implementing advanced electrode materials in commercial battery production? The main challenges include scalability, cost-effectiveness, and ensuring compatibility with existing manufacturing processes.

Original Abstract Submitted

A battery of the present disclosure includes a positive electrode layer, a negative electrode layer, and a solid electrolyte layer disposed between the positive electrode layer and the negative electrode layer. The positive electrode layer includes a positive electrode active material and a first solid electrolyte material. The negative electrode layer includes a negative electrode active material and a second solid electrolyte material. The positive electrode active material includes a compound, and the compound includes a transition metal element and an oxoanion and is capable of an electrochemical two-phase coexistence reaction with lithium. The first solid electrolyte material includes Li, M1, and X1, M1 is at least one selected from the group consisting of metalloid elements and metal elements other than Li, and X1 is at least one selected from the group consisting of F, Cl, Br, and I.