The field of material science is constantly pushing boundaries, seeking compounds that offer unique properties for advanced applications. Fluorinated organic compounds have emerged as crucial components in this quest, owing to the distinctive characteristics imparted by fluorine atoms. For researchers and developers focused on creating novel materials, understanding and sourcing these specialized building blocks is essential. 4-Bromo-3,3,4,4-tetrafluorobutanol stands out as a prime example of such a versatile fluorinated intermediate.

Why Fluorine Matters in Material Science

The introduction of fluorine into organic molecules can lead to dramatic changes in their physical and chemical properties. These include increased thermal and chemical stability, lower surface energy, and unique electronic or optical characteristics. This makes fluorinated compounds ideal for applications ranging from advanced polymers and coatings to specialized pharmaceuticals and electronics. As a result, the demand for high-quality fluorinated building blocks continues to grow, making reliable sourcing a critical aspect for R&D departments.

4-Bromo-3,3,4,4-tetrafluorobutanol: A Versatile Intermediate

Chemical professionals seeking to buy or purchase advanced intermediates will find 4-Bromo-3,3,4,4-tetrafluorobutanol (CAS 234443-21-1) to be a compound of significant interest. Its molecular structure, featuring a hydroxyl group and a bromine atom adjacent to a tetrafluorinated ethyl chain, provides reactive sites for further chemical modification. This versatility allows it to be employed in the synthesis of a wide array of complex molecules.

The primary noted application for this compound is in the creation of fluorosulfonates, which are integral to the development of advanced resist materials. These materials are indispensable for sophisticated microfabrication techniques, particularly in the semiconductor industry. However, its potential extends beyond this specific application, serving as a valuable tool for synthetic chemists exploring new frontiers in material design. Locating a dependable supplier, especially a manufacturer based in China, can be advantageous for securing consistent quality and competitive pricing.

Sourcing Strategies for R&D

For research and development teams, the ability to obtain chemicals with high purity and detailed specifications is non-negotiable. When procuring 4-Bromo-3,3,4,4-tetrafluorobutanol, it is advisable to consult with chemical providers who offer comprehensive product information, including CAS number, molecular formula, and purity data. Requesting a quote for both sample quantities and potential bulk orders allows for thorough evaluation and planning. Partnering with experienced chemical suppliers ensures that your material needs are met efficiently, allowing you to focus on the innovation process.

Conclusion

The advancement of new materials is intrinsically linked to the availability of sophisticated chemical intermediates. 4-Bromo-3,3,4,4-tetrafluorobutanol exemplifies a key fluorinated building block that supports innovation across various high-tech sectors. By understanding its chemical utility and engaging with trusted manufacturers and suppliers, researchers and product developers can effectively leverage this compound to push the boundaries of material science. If you are considering the purchase of this crucial intermediate, exploring options from reputable sources will undoubtedly benefit your R&D efforts.