30389-25-4 | 1h,1h,2h-Perfluoro-1-dodecene

CAS:30389-25-4 | 1h,1h,2h-Perfluoro-1-dodecene ,Description

1h,1h,2h-Perfluoro-1-dodecene (PFDD) is a synthetic fluorinated hydrocarbon that has been used in a variety of applications, from surface coatings to biomedical research. This compound is a member of the perfluorinated alkene family, which is characterized by its low surface energy, low surface tension, and excellent chemical stability. PFDD has been studied extensively for its unique properties, and its potential applications in a variety of fields.
 

Scientific Research Applications

Super-Hydrophobic and Oleophobic Fluorocarbon Films

1H,1H,2H-Perfluoro-1-dodecene has been utilized in the creation of fluorocarbon films, characterized by their super-hydrophobic and oleophobic properties. These films are deposited using a radio frequency glow discharge process, resulting in coatings that exhibit excellent water and oil repellency. The films' composition predominantly comprises perfluoromethylene (CF2) species, which contribute to their low surface energy and repelling characteristics. This application finds relevance in materials engineering, particularly in the development of surfaces that resist water and oil, enhancing durability and cleanliness (Laguardia et al., 2007).

Hydroformylation of 1-Dodecene

In the field of chemical engineering, 1H,1H,2H-Perfluoro-1-dodecene has been studied in the context of the hydroformylation process. This process involves the addition of a formyl group (CHO) to 1-dodecene, catalyzed by a rhodium-biphephos catalyst complex within a thermomorphic multicomponent solvent system. The kinetics and mechanistic aspects of this reaction are critical for understanding and optimizing the production of aldehydes, an essential intermediate in various industrial chemical processes (Kiedorf et al., 2014).

Synthesis of 1H,1H,2H-Heptadecafluorodecene

Research has been conducted on synthesizing 1H,1H,2H-Heptadecafluorodecene using perfluorooctyl iodide and ethylene. The study focused on optimizing factors like solvent types, raw material configuration, concentration, and reaction time. This synthesis is significant in producing fluorinated compounds, which are essential in various industrial and pharmaceutical applications due to their unique chemical properties (Wang et al., 2013).

Solvent Effects in Nanoparticle Synthesis

1H,1H,2H-Perfluoro-1-dodecene has been used as part of a solvent system in the microwave-assisted synthesis of germanium nanoparticles. The concentration of 1-dodecene in the solvent mixture influences the size and crystallinity of the nanoparticles formed, demonstrating its importance in nanotechnology for controlling particle characteristics during synthesis (Bernard et al., 2018).

Use in Synthetic Lubricants

1H,1H,2H-Perfluoro-1-dodecene has been implicated in the synthesis of synthetic lubricants. The Cr-catalyzed trimerization of 1-dodecene, for instance, results in the selective production of C30 and C36 olefins, which upon hydrogenation, display desirable viscosity indices for use in automotive lubricants (Wasserscheid et al., 2001).

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