1. Fluorine-containing pharmaceutical intermediates:

Used in the synthesis of fluorine-containing drug molecules, introducing fluorine-containing groups such as perfluorobutyl to optimize the lipophilicity, metabolic stability, and bioavailability of drugs, facilitating the development of innovative drugs in areas such as anti-infectives and anti-cancer treatments.

2. Fluorine-containing material intermediates:

As key raw materials for the preparation of polymer materials such as fluorocarbon resins, fluorine-containing acrylates, and fluorine-containing elastomers, they impart properties such as weather resistance, chemical corrosion resistance, and low surface energy to the materials, and are used in special coatings, sealants, and electronic packaging materials.

3. Fine chemical synthesis:

Used in the production of fine chemical products such as fluorine-containing surfactants, fluorine-containing dyes, and fluorine-containing additives. These products provide efficient wetting, emulsification, and defoaming effects in industries such as textiles, leather, paper, and electronic cleaning.

4. Chemical reagents and research applications:

Used as common reagents in organic synthesis, such as in perfluoroalkylation reactions, and also used in laboratory research on the synthesis of fluorine-containing compounds, exploration of reaction mechanisms, and preparation of related standard substances.

5. Fluorine-containing electronic chemical raw materials:

Used in the synthesis of fluorine-containing solvents, etchants, and cleaning agents required by the electronics industry, meeting the demand for high-purity and high-stability chemicals in fields such as semiconductors and liquid crystal displays, ensuring the precision manufacturing of electronic components.