18746092. ELECTROCHEMICAL DEVICE simplified abstract (Ningde Amperex Technology Limited)
ELECTROCHEMICAL DEVICE
Organization Name
Ningde Amperex Technology Limited
Inventor(s)
ELECTROCHEMICAL DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18746092 titled 'ELECTROCHEMICAL DEVICE
The abstract describes an electrochemical device with a separator and an electrolyte. The separator consists of two porous layers, and the electrolyte contains a compound with 2 to 3 cyano groups. The pore closing temperature of the first porous layer differs from that of the second porous layer.
- The device includes a separator with two porous layers.
- The electrolyte contains a compound with 2 to 3 cyano groups.
- The pore closing temperatures of the porous layers are different.
Potential Applications: - Energy storage systems - Batteries - Fuel cells
Problems Solved: - Enhanced performance and efficiency of electrochemical devices - Improved stability and durability
Benefits: - Increased energy storage capacity - Longer lifespan of the device - Higher efficiency in energy conversion
Commercial Applications: Title: Advanced Electrochemical Devices for Energy Storage This technology can be utilized in various industries such as renewable energy, electric vehicles, and portable electronics. The market implications include improved energy storage solutions and increased demand for sustainable technologies.
Questions about Electrochemical Devices with Two Porous Layers: 1. How does the presence of two porous layers in the separator impact the performance of the electrochemical device?
- The two porous layers provide enhanced stability and efficiency to the device by optimizing ion transport and preventing short circuits.
2. What are the specific advantages of using a compound with 2 to 3 cyano groups in the electrolyte?
- The compound with cyano groups helps improve the conductivity and overall performance of the electrolyte in the electrochemical device.
Original Abstract Submitted
An electrochemical device includes a separator and an electrolyte. The separator includes a first porous layer and a second porous layer; and the electrolyte includes at least one compound containing 2 to 3 cyano groups; and a pore closing temperature of the first porous layer is different from a pore closing temperature of the second porous layer.
