METHOD OF MANUFACTURING ALL SOLID-STATE SECONDARY BATTERY

Organization Name

honda motor co., ltd.

Inventor(s)

Hiroki Ichihara of Wako-shi (JP)

Takashi Toyoshima of Wako-shi (JP)

Yohei Noji of Wako-shi (JP)

Kosei Miyata of Wako-shi (JP)

METHOD OF MANUFACTURING ALL SOLID-STATE SECONDARY BATTERY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240332491 titled 'METHOD OF MANUFACTURING ALL SOLID-STATE SECONDARY BATTERY

The method of manufacturing an all solid-state secondary battery involves several key steps, including positive electrode layer forming, compression processes, electrolyte layer laminating, intermediate layer laminating, integrating, and compression processes.

• Positive electrode layer forming process
• First compression process
• Electrolyte layer laminating process
• Second compression process
• Intermediate layer laminating process
• Third compression process
• Integrating process
• Fourth compression process

The second compression process applies higher pressure compared to the first, third, and fourth compression processes, ensuring proper integration of the different layers in the battery.

Key Features and Innovation: - Sequential processes ensure proper layer formation and integration - Varying compression pressures optimize the battery structure - All solid-state design enhances battery performance and safety

Potential Applications: - Electric vehicles - Portable electronics - Energy storage systems

Problems Solved: - Ensures proper layer adhesion and integration - Enhances battery performance and longevity - Improves safety and reliability of solid-state batteries

Benefits: - Increased battery efficiency - Longer lifespan - Enhanced safety features

Commercial Applications: Title: Advanced Manufacturing Method for All Solid-State Secondary Batteries This technology can revolutionize the battery industry by providing more efficient and safer energy storage solutions for various applications, including electric vehicles and consumer electronics.

Questions about the Advanced Manufacturing Method for All Solid-State Secondary Batteries: 1. How does the varying compression pressure in different processes impact the overall performance of the battery? 2. What are the specific advantages of using an all solid-state design in secondary batteries?

Frequently Updated Research: Researchers are continuously exploring new materials and manufacturing techniques to further enhance the performance and efficiency of all solid-state secondary batteries. Stay updated on the latest advancements in this field for potential breakthroughs in energy storage technology.

Original Abstract Submitted

a method of manufacturing an all solid-state secondary battery includes a positive electrode layer forming process, a first compression process, an electrolyte layer laminating process, a second compression process, an intermediate layer laminating process, a third compression process, an integrating process, and a fourth compression process. a second pressure in the second compression process is higher than each of a first pressure in the first compression process, a third pressure in the third compression process, and a fourth pressure in the fourth compression process.