18477186. COMPOSITE CATHODE ACTIVE MATERIAL, CATHODE AND LITHIUM BATTERY INCLUDING THE COMPOSITE CATHODE ACTIVE MATERIAL, AND METHOD OF PREPARING THE COMPOSITE CATHODE ACTIVE MATERIAL simplified abstract (SAMSUNG SDI CO., LTD.)
COMPOSITE CATHODE ACTIVE MATERIAL, CATHODE AND LITHIUM BATTERY INCLUDING THE COMPOSITE CATHODE ACTIVE MATERIAL, AND METHOD OF PREPARING THE COMPOSITE CATHODE ACTIVE MATERIAL
Organization Name
Inventor(s)
Sangkook Mah of Yongin-si (KR)
COMPOSITE CATHODE ACTIVE MATERIAL, CATHODE AND LITHIUM BATTERY INCLUDING THE COMPOSITE CATHODE ACTIVE MATERIAL, AND METHOD OF PREPARING THE COMPOSITE CATHODE ACTIVE MATERIAL - A simplified explanation of the abstract
This abstract first appeared for US patent application 18477186 titled 'COMPOSITE CATHODE ACTIVE MATERIAL, CATHODE AND LITHIUM BATTERY INCLUDING THE COMPOSITE CATHODE ACTIVE MATERIAL, AND METHOD OF PREPARING THE COMPOSITE CATHODE ACTIVE MATERIAL
The composite cathode active material described in the patent application consists of a core with two different lithium transition metal oxides and a shell that covers the surface of the cores. The shell is composed of a first metal oxide, a first carbon-based material, and a second carbon-based material.
- The core includes a first lithium transition metal oxide and a second lithium transition metal oxide.
- The shell conforms to the surface of at least one of the cores and contains a first metal oxide, a first carbon-based material, and a second carbon-based material.
- The first metal oxide is embedded within a matrix of the first carbon-based material.
- The first metal oxide is represented by MO, where M is a metal selected from Groups 2 to 13, 15, and 16 of the periodic table of elements.
Potential Applications: - Lithium-ion batteries - Energy storage systems - Electric vehicles
Problems Solved: - Enhanced battery performance - Improved energy storage capacity - Increased battery lifespan
Benefits: - Higher energy density - Longer battery life - Improved overall battery performance
Commercial Applications: Title: Advanced Composite Cathode Active Material for Lithium-ion Batteries This technology can be utilized in the production of high-performance lithium-ion batteries for various applications, including electric vehicles, portable electronics, and renewable energy storage systems. The market implications include increased demand for more efficient and long-lasting battery solutions.
Questions about the technology: 1. How does the composition of the composite cathode active material contribute to improved battery performance? 2. What sets this composite cathode active material apart from traditional cathode materials in terms of energy storage capacity and longevity?
Original Abstract Submitted
A composite cathode active material may include a 1core including a first lithium transition metal oxide, a 2core including a second lithium transition metal oxide, and a shell conforming to a surface of at least one of the 1core or the 2core, wherein the shell may include first metal oxide, a first carbon-based material, and a second carbon-based material, the first metal oxide may be provided within a matrix of the first carbon-based material, the first metal oxide may be represented by MO, wherein 0<a≤3 and 0<b<4, if a is 1, 2, or 3, b is not an integer, and M may be at least one metal selected from among Groups 2 to 13, 15, and 16 of the periodic table of elements.
