Purchase CAS:372-93-0,view related peer-reviewed papers,technical documents,similar products,MSDS & more. 4-Fluoro-1-butanol (4FB) is an organic compound with a molecular formula of C4H9FO. It is a colorless liquid with a characteristic odor and is a member of the group of compounds known as fluoroalcohols. 4FB is an important intermediate in many chemical reactions, and has been used in a variety of scientific research ap...
4-Fluoro-1-butanol (4FB) is an organic compound with a molecular formula of C4H9FO. It is a colorless liquid with a characteristic odor and is a member of the group of compounds known as fluoroalcohols. 4FB is an important intermediate in many chemical reactions, and has been used in a variety of scientific research applications. Additionally, it will discuss the advantages and limitations of using 4FB in laboratory experiments, as well as potential future directions.
Scientific Research Applications
Chemical Synthesis and Properties:
4-Fluoro-1-butanol has been used in the synthesis of fluoronitroalcohols and their derivatives. These compounds are prepared through aqueous fluorination, which is a key process in organic synthesis (Eremenko et al., 1970).
Analytical Applications in Biological Research:
In analytical chemistry, 4-Fluoro-1-butanol plays a role in the development of sensitive fluorometric methods. For instance, it has been involved in the analysis of proline in biological samples, showcasing its utility in biomedical research (Wu, 1993).
Study of Cellular Processes:
Research on cellular processes, such as phospholipase D (PLD) inhibition, has utilized 4-Fluoro-1-butanol. This compound aids in understanding the role of PLD in cell spreading, chemotaxis, and membrane vesicle trafficking, offering insights into potential therapeutic applications (Su et al., 2009).
Applications in Biofuel Research:
Butanol, including 4-Fluoro-1-butanol, is being explored as a potential biofuel. Studies in biotechnology and bioengineering are focused on the fermentative production of butanol, highlighting its significance in sustainable energy research (Lee et al., 2008).
Physical Chemistry and Molecular Structure Studies:
The physical properties and conformational analysis of fluorine-containing alcohols, including 4-Fluoro-1-butanol, are subjects of interest. Investigations into their conformational landscape and relaxation paths provide fundamental insights into their molecular structures (Lu et al., 2020).
Material Science and Engineering Applications:
In material science, the study of micelle formation in solutions involving 4-Fluoro-1-butanol can reveal important aspects of surfactant behavior, which is critical in various industrial applications (Lianos & Zana, 1980).
Gas and Vapor Separation Technologies:
The compound is also relevant in the development of gas/vapor separation technologies. Metal-organic frameworks (MOFs) utilizing 4-Fluoro-1-butanol have been explored for their potential in selective adsorption and molecular sieving of gases and vapors (Xue et al., 2015).