Purchase CAS:15599-91-4,view related peer-reviewed papers,technical documents,similar products,MSDS & more. Hexafluorocyclotriphosphazene (HFCP) is a unique chemical compound that has a wide range of applications in the scientific research field. HFCP is composed of six fluorine atoms and three phosphorus atoms, and its molecular structure is a cyclic molecule with a three-dimensional shape. HFCP has been used in a variety o...
Hexafluorocyclotriphosphazene (HFCP) is a unique chemical compound that has a wide range of applications in the scientific research field. HFCP is composed of six fluorine atoms and three phosphorus atoms, and its molecular structure is a cyclic molecule with a three-dimensional shape. HFCP has been used in a variety of scientific research applications, including as a catalyst, a reagent, and a molecular precursor. Additionally, HFCP has been used in the development of new materials, such as polymers, for use in medical and industrial applications.
Scientific Research Applications
It serves as a precursor for hexakis(trifluoromethyl)cyclotriphosphazene synthesis, exhibiting potential for various inorganic chemistry applications (R. Singh, A. Vij, R. L. Kirchmeier, J. Shreeve, 2000).
In the field of materials science, hexachlorocyclotriphosphazene, a related compound, is used for the synthesis of smart dendrimers, which have applications in catalysis, sensors, and cell culture supports (A. Caminade, A. Hameau, J. Majoral, 2016).
It has applications in organic light-emitting diodes (OLEDs) as a host material for high-efficiency OLEDs due to its high triplet energy (T. Nishimoto, Takuma Yasuda, S. Lee, Ryosuke Kondo, C. Adachi, 2014).
Hexafluorocyclotriphosphazene's NMR spectra provide valuable insights for magnetic resonance chemistry (Libor Kapička, D. Dastych, V. Richterová, M. Alberti, P. Kubáček, 2005) .
It acts as an intermediate in the synthesis of polyphosphazenes with various functional groups, relevant for inorganic chemistry (Harry R. Allcock, T. L. Evans, T. J. Fuller, 1980).
In polymer science, it's used in the formation of spiro and ansa derivatives, demonstrating versatility in chemical reactions (S. Beşli, S. Coles, D. Davies, R. J. Eaton, A. KiliÇ, R. Shaw, 2006) .
It's utilized in photophysical studies, such as investigating excimer emissions in solutions and solid states (Serkan Yeşilot, Bünyemin Çoşut, Hüsnüye Ardıç Alidağı, Ferda Hacıvelioğlu, G. A. Özpınar, A. KiliÇ, 2014) .
Hexafluorocyclotriphosphazene-based star-branched polymers are synthesized for potential applications in macromolecular chemistry (J. Chang, H. J. Ji, M. Han, S. Rhee, Seonkyeong Cheong, M. Yoon, 1994).
In dye and pigment research, cyclotriphosphazene derivatives are utilized for their fluorescence properties, having broad applications in sensing and imaging (Pan Liu, Le Wang, Yunxia Yang, Yi Qu, L. Ming, 2021).
Its thermal and photophysical properties are of interest in polymer science, as they contribute to the understanding of material properties (Bünyemin Çoşut, Ferda Hacıvelioğlu, M. Durmuş, A. KiliÇ, Serkan Yeşilot, 2009) .
It is investigated for improving the safety and performance of lithium sulfur batteries, showcasing its potential in energy storage technologies (H. Fei, Y. An, Jinkui Feng, L. Ci, S. Xiong, 2016).
Its flame retardancy and dielectric properties make it a candidate for various industrial applications, particularly in the field of materials science (Siti Nur Khalidah Usri, Z. Jamain, M. Makmud, 2021).