Healable and Recyclable Polyimide Polymer Resin, Healing Method and Recycling Method Thereof

Organization Name

NATIONAL TSING HUA UNIVERSITY

Inventor(s)

Ho-Hsiu Chou of Hsinchu (TW)

Kuei-Yi Chuang of Hsinchu City (TW)

Healable and Recyclable Polyimide Polymer Resin, Healing Method and Recycling Method Thereof - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240018330 titled 'Healable and Recyclable Polyimide Polymer Resin, Healing Method and Recycling Method Thereof

Simplified Explanation

The abstract describes a healable and recyclable polyimide polymer resin that includes a chemical structural unit represented by formula (i). This structural unit bonds to at least one condensation-polymerizable monomer, which can be a diamine monomer or a dianhydride monomer, to form the healable and recyclable polyimide polymer resin.

• The patent application describes a new type of polyimide polymer resin that can be healed and recycled.
• The resin includes a specific chemical structural unit represented by formula (i).
• This structural unit bonds to condensation-polymerizable monomers, such as diamine or dianhydride monomers, to form the resin.
• The healable property of the resin allows it to repair itself when damaged.
• The recyclable property of the resin enables it to be processed and reused multiple times.

Potential applications of this technology:

• Aerospace industry: The healable and recyclable polyimide resin can be used in the manufacturing of aircraft components, providing improved durability and repairability.
• Electronics industry: The resin can be utilized in electronic devices, such as flexible displays or circuit boards, allowing for easier repair and recycling.
• Automotive industry: The healable and recyclable resin can be incorporated into vehicle parts, enhancing their longevity and reducing waste.

Problems solved by this technology:

• Limited repairability: Traditional polyimide resins are difficult to repair once damaged, leading to increased costs and waste. This technology solves this problem by introducing a healable property.
• Limited recyclability: Conventional polyimide resins are often challenging to recycle due to their chemical structure. This innovation addresses this issue by enabling the resin to be easily processed and reused.

Benefits of this technology:

• Cost savings: The ability to heal and recycle the resin reduces the need for frequent replacements, resulting in cost savings for industries using this material.
• Environmental impact: The recyclability of the resin reduces waste and promotes a more sustainable manufacturing process.
• Improved product durability: The healable property of the resin increases the lifespan of products, reducing the frequency of repairs or replacements.

Original Abstract Submitted

a healable and recyclable polyimide polymer resin includes a chemical structural unit represented by formula (i), which is defined in the description. the chemical structural unit represented by the formula (i) bonds to at least one condensation-polymerizable monomer, so as to form the healable and recyclable polyimide polymer resin, and the condensation-polymerizable monomer is a diamine monomer or a dianhydride monomer.