6533b86ffe1ef96bd12cdcf1
RESEARCH PRODUCT
Dielectric investigations of pure and mixed fluorocarbons in their condensed phases
Roland BöhmerAlois Loidlsubject
Phase transitionChemistryThermodynamicsDielectricCondensed Matter PhysicsMiscibilityAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsDipoleMaterials ChemistryMelting pointPhysical chemistryDielectric lossFluorocarbonOnsager reciprocal relationsPhysical and Theoretical ChemistrySpectroscopydescription
We review recent work and present new results on the liquid and solid fluocarbons CMF3 with M = H, F, Cl, Br, CH3, and CF3. The pure compounds as well as several series of binary mixtures were investigated using dielectric measurements. The permittivities of the non-hydrogenatcd non-polar and polar liquids could be described using the Clausius-Mosotti and the Onsager equation, respectively. In CHF3 and C2H3F3 hydrogen bridging leads to deviations from this simple behavior. The trends in the miscibility of four series of fluorocarbon mixtures are in qualitative accord with regular solution theory. The geometrical shapes of the compounds dominate the degrees of order below their melting point. Orientational liquid states (or plastic crystalline phases) are exhibited by the quasi-globular halomethanes CF4 and C2F6, whereas complete dipolar order is found for the aspherical compounds CHF3 and CBrF3. The dielectric results for solid C2H3F3 indicate a phase transition several degrees below the fusion temperature probably being due to the onset of intramolecular rotation. CClF3 exhibits thermally activated dipole dynamics in the solid state. In alloys of CClF3 with CF4 and C2F6 the dielectric loss spectra have signaled single particle reorientations and glassy excitations.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1991-09-01 |