18416554. ANODE PLATE AND PREPARATION METHOD THEREOF, SECONDARY BATTERY, BATTERY MODULE, BATTERY PACK AND ELECTRIC DEVICE simplified abstract (CONTEMPORARY AMPEREX TECHNOLOGY CO., LIMITED)
ANODE PLATE AND PREPARATION METHOD THEREOF, SECONDARY BATTERY, BATTERY MODULE, BATTERY PACK AND ELECTRIC DEVICE
Organization Name
CONTEMPORARY AMPEREX TECHNOLOGY CO., LIMITED
Inventor(s)
ANODE PLATE AND PREPARATION METHOD THEREOF, SECONDARY BATTERY, BATTERY MODULE, BATTERY PACK AND ELECTRIC DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18416554 titled 'ANODE PLATE AND PREPARATION METHOD THEREOF, SECONDARY BATTERY, BATTERY MODULE, BATTERY PACK AND ELECTRIC DEVICE
The abstract describes a patent application for an anode plate that includes a current collector and an anode active material layer. The anode active material layer consists of a fluoropolymer and a carbon nanotube, with the fluoropolymer dispersed in the layer and the carbon nanotube wrapped around the fluoropolymer and the anode active material.
- The anode plate includes a current collector and an anode active material layer.
- The anode active material layer contains a fluoropolymer and a carbon nanotube.
- The fluoropolymer is dispersed within the anode active material layer.
- The carbon nanotube is wrapped around the fluoropolymer and the anode active material.
- This design enhances the performance and efficiency of the anode plate.
Potential Applications: - Lithium-ion batteries - Energy storage systems - Electric vehicles
Problems Solved: - Improved conductivity - Enhanced stability - Increased energy density
Benefits: - Longer battery life - Faster charging - Higher energy efficiency
Commercial Applications: Title: Advanced Anode Plate Technology for Lithium-ion Batteries This technology can be used in the production of high-performance lithium-ion batteries for various applications, including electric vehicles, portable electronics, and renewable energy storage systems. The enhanced conductivity and stability offered by this innovation can lead to more reliable and efficient battery solutions in the market.
Prior Art: Researchers and developers in the field of battery technology may find relevant prior art in studies related to anode materials, conductive additives, and composite structures in lithium-ion batteries.
Frequently Updated Research: Ongoing research in the field of battery materials and design may provide further insights into the optimization of anode plate technology for improved energy storage solutions.
Questions about Anode Plate Technology: 1. How does the combination of fluoropolymer and carbon nanotube enhance the performance of the anode plate? 2. What are the potential challenges in scaling up the production of anode plates with this innovative design?
Original Abstract Submitted
An anode plate includes a current collector and an anode active material layer. The anode active material layer is disposed on at least one surface of the current collector. The anode active material layer includes a fluoropolymer and a carbon nanotube; the fluoropolymer is dispersed in the anode active material layer; and the carbon nanotube is wrapped around the fluoropolymer and an anode active material in the anode active material layer.
