18574217. COMPOSITION FOR FORMING ELECTRODE simplified abstract (NISSAN CHEMICAL CORPORATION)

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COMPOSITION FOR FORMING ELECTRODE

Organization Name

NISSAN CHEMICAL CORPORATION

Inventor(s)

Tatsuya Hatanaka of Funabashi-shi (JP)

Mari Oka of Funabashi-shi (JP)

COMPOSITION FOR FORMING ELECTRODE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18574217 titled 'COMPOSITION FOR FORMING ELECTRODE

The composition described in the abstract is designed to form an electrode for batteries that can maintain battery characteristics while reducing the amount of fluorine-based binder used.

  • The composition includes an organic compound, a fluorine-based binder, a conductive carbon material, and an active material.
  • The organic compound must have four or more acidic functional groups and/or salts thereof.
  • The content of the organic compound should be 0.001-0.5 mass % of the total solid content, while the fluorine-based binder content should be 0.01-1.0 mass % of the total solid content.

Potential Applications: - This technology can be applied in the development of high-performance batteries with improved efficiency and longevity. - It can also be used in the production of energy storage systems for various applications, including electric vehicles and renewable energy storage.

Problems Solved: - The composition addresses the challenge of reducing the amount of fluorine-based binder used in electrodes without compromising battery performance. - It provides a solution for maintaining battery characteristics while optimizing the composition of electrode materials.

Benefits: - Improved battery efficiency and longevity. - Reduced reliance on fluorine-based binders, which can be costly and environmentally impactful. - Enhanced performance of energy storage systems in various applications.

Commercial Applications: Title: Advanced Electrode Composition for High-Performance Batteries This technology has significant commercial potential in the battery manufacturing industry, particularly for companies focused on developing advanced energy storage solutions. It can also benefit industries that rely on battery technology, such as electric vehicles and renewable energy systems.

Questions about the technology: 1. How does the composition of the electrode impact battery performance? - The composition affects battery performance by optimizing the materials used in the electrode, resulting in improved efficiency and longevity.

2. What are the environmental implications of reducing the amount of fluorine-based binder in electrode production? - By reducing the amount of fluorine-based binder, this technology can help minimize the environmental impact of battery manufacturing processes.


Original Abstract Submitted

Provided is a composition for forming an electrode with which battery characteristics can be maintained while the amount of a fluorine-based binder used is reduced, the composition including an organic compound, a fluorine-based binder, a conductive carbon material, and an active material, the organic compound having four or more acidic functional groups and/or salts thereof, the content thereof making up 0.001-0.5 mass % of the total solid content, and the fluorine-based binder content making up 0.01-1.0 mass % of the total solid content.