Discover 2,2-bis(3-amino-4-hydroxyphenyl)hexafluoropropane (6fap) Kit [uvO1UZDt]

Discover 2,2-bis(3-amino-4-hydroxyphenyl)hexafluoropropane (6fap) Kit [uvO1UZDt]: A Cutting-Edge Building Block

Discover the versatility of Discover 2,2-bis(3-amino-4-hydroxyphenyl)hexafluoropropane (6fap) Kit [uvO1UZDt], a fluorinated diamino dihydroxy building block that is revolutionizing the field of synthetic chemistry. This innovative compound offers a unique combination of functional groups, including aminophenols and hydroxy groups, making it an ideal choice for the synthesis of advanced materials such as polybenzoxazoles and polyimides. With its exceptional properties, 6FAP stands out as a key intermediate in the development of membranes, photosensitive polymers, and electrochromic devices.

Unmatched Properties and Specifications

6FAP boasts an impressive set of specifications that underscore its exceptional quality. This compound has a molecular weight of 366.26 g/mol and is available in a high purity of >99%. Its melting point ranges from 245°C to 248°C, ensuring stable and reliable performance. The chemical formula of 6FAP is C₁₅H₁₂F₆N₂O₂, and it belongs to the family of fluorinated building blocks, aminophenol derivatives, polyimides, polybenzoazoles, batteries, and membranes. This diverse classification reflects the wide range of applications that 6FAP can be utilized for.

Applications and Benefits Across Various Industries

The applications of 6FAP are vast and varied, making it a valuable asset in numerous industries. Its use as a synthetic intermediate for polybenzoxazoles and polyimides has led to the development of advanced membranes with exceptional gas selectivity for hydrogen, ultrafine microporosity, and high proton conductivity. These membranes are ideal for fuel cell systems, where their chemical and thermal stability ensure optimal performance. Additionally, the photosensitivity of polyimides synthesized from 6FAP makes it a prime candidate for semiconductor manufacturing applications. By leveraging the unique properties of 6FAP, researchers and engineers can create innovative solutions that drive progress and improve everyday life.