SOLID-STATE ELECTROLYTE AND PREPARATION METHOD THEREOF, AND SECONDARY BATTERY

Organization Name

HUAWEI TECHNOLOGIES CO., LTD.

Inventor(s)

Qiang Ma of Dongguan (CN)

Haobin Wu of Hangzhou (CN)

Yifei Xu of Hangzhou (CN)

Xiang Hong of Shenzhen (CN)

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.