18594076. METHOD OF MANUFACTURING POSITIVE ELECTRODE MATERIAL simplified abstract (Fujitsu Limited)
Contents
METHOD OF MANUFACTURING POSITIVE ELECTRODE MATERIAL
Organization Name
Inventor(s)
Tomochika Kurita of Kawasaki (JP)
Jyunichi Iwata of Sagamihara (JP)
METHOD OF MANUFACTURING POSITIVE ELECTRODE MATERIAL - A simplified explanation of the abstract
This abstract first appeared for US patent application 18594076 titled 'METHOD OF MANUFACTURING POSITIVE ELECTRODE MATERIAL
Simplified Explanation: The patent application describes a positive electrode material with specific diffraction peaks in X-ray diffraction, a monoclinic crystal structure, and a composition formula of LiCoPO(x).
Key Features and Innovation:
- Positive electrode material with distinct diffraction peaks
- Monoclinic crystal structure in space group P2/c
- Composition formula LiCoPO(x)
Potential Applications: This technology could be used in lithium-ion batteries, energy storage systems, and portable electronic devices.
Problems Solved: The technology addresses the need for high-performance electrode materials in energy storage applications.
Benefits:
- Improved battery performance
- Enhanced energy storage capabilities
- Longer battery life
Commercial Applications: Potential commercial applications include battery manufacturing, renewable energy storage systems, and consumer electronics.
Questions about the Technology: 1. What are the specific advantages of using a monoclinic crystal structure in this electrode material? 2. How does the composition formula LiCoPO(x) contribute to the performance of the material?
Frequently Updated Research: Researchers are continually exploring new electrode materials and structures to enhance the performance and efficiency of energy storage devices.
Original Abstract Submitted
A positive electrode material has diffraction peaks at 2θ=13.1°±0.2°, 14.0°±0.2°, and 18.4°±0.2° in X-ray diffraction (2θ=5° to 90°) using synchrotron radiation having a wavelength of 1 Å, has a monoclinic crystal structure belonging to a space group P2/c, and is represented by a composition formula LiCoPO(−0.2≤x≤0.2).
