18456066. SOLID-STATE ELECTROLYTE AND PREPARATION METHOD THEREOF, AND SECONDARY BATTERY simplified abstract (HUAWEI TECHNOLOGIES CO., LTD.)
SOLID-STATE ELECTROLYTE AND PREPARATION METHOD THEREOF, AND SECONDARY BATTERY
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SOLID-STATE ELECTROLYTE AND PREPARATION METHOD THEREOF, AND SECONDARY BATTERY - A simplified explanation of the abstract
This abstract first appeared for US patent application 18456066 titled 'SOLID-STATE ELECTROLYTE AND PREPARATION METHOD THEREOF, AND SECONDARY BATTERY
Simplified Explanation
The abstract describes a solid-state electrolyte that is made up of a porous coordination polymer with specific properties. Here is a simplified explanation of the abstract:
- The solid-state electrolyte is made of a porous coordination polymer.
- The polymer has an unsaturated metal site, which means it has a metal atom that can form bonds with other atoms.
- An anionic group is coordinated with and grafted onto the unsaturated metal site.
- A cation is bound with the anionic group, forming a stable structure.
- The anionic group can include substituted carboxylate and/or substituted sulfonate groups.
- The cation can be one of several different ions, including lithium, sodium, potassium, magnesium, zinc, or aluminum.
Potential applications of this technology:
- Solid-state electrolytes are used in batteries and fuel cells, so this innovation could be used to improve the performance and safety of these devices.
- The use of different cations allows for flexibility in designing electrolytes for specific applications.
Problems solved by this technology:
- Solid-state electrolytes are often limited by their stability and conductivity. This innovation addresses these limitations by using a porous coordination polymer with specific properties.
- The use of different cations expands the range of applications for solid-state electrolytes.
Benefits of this technology:
- The solid-state electrolyte described in the patent application offers improved stability and conductivity compared to traditional electrolytes.
- The ability to use different cations allows for customization and optimization of electrolytes for specific applications.
- This innovation could lead to safer and more efficient batteries and fuel cells.
Original Abstract Submitted
Embodiments of this application provide a solid-state electrolyte. The solid-state electrolyte includes a porous coordination polymer having an unsaturated metal site, an anionic group coordinated with and grafted on the unsaturated metal site, and a cation bound with the anionic group. The anionic group includes one or more substituted carboxylate anionic groups and/or one or more substituted sulfonate anionic groups. The cation includes one or more of a lithium ion, a sodium ion, a potassium ion, a magnesium ion, a zinc ion, and/or an aluminum ion.