by Vdovichenko, G. A., Krivchikov, A. I., Korolyuk, O. A., Tamarit, J. Ll., Pardo, L. C., Rovira-Esteva, M., Bermejo, F. J., Hassaine, M. and Ramos, M. A.
Abstract:
The thermal conductivity, specific heat, and specific volume of the orientational glass former 1,1,2-trichloro-1,2,2-trifluoroethane (CCl2F–CClF2, F-113) have been measured under equilibrium pressure within the low-temperature range, showing thermodynamic anomalies at ca. 120, 72, and 20 K. The results are discussed together with those pertaining to the structurally related 1,1,2,2-tetrachloro-1,2-difluoroethane (CCl2F–CCl2F, F-112), which also shows anomalies at 130, 90, and 60 K. The rich phase behavior of these compounds can be accounted for by the interplay between several of their degrees of freedom. The arrest of the degrees of freedom corresponding to the internal molecular rotation, responsible for the existence of two energetically distinct isomers, and the overall molecular orientation, source of the characteristic orientational disorder of plastic phases, can explain the anomalies at higher and intermediate temperatures, respectively. The soft-potential model has been used as the framework to describe the thermal properties at low temperatures. We show that the low-temperature anomaly of the compounds corresponds to a secondary relaxation, which can be associated with the appearance of Umklapp processes, i.e., anharmonic phonon-phonon scattering, that dominate thermal transport in that temperature range.
Reference:
Thermal properties of halogen-ethane glassy crystals: Effects of orientational disorder and the role of internal molecular degrees of freedom (Vdovichenko, G. A., Krivchikov, A. I., Korolyuk, O. A., Tamarit, J. Ll., Pardo, L. C., Rovira-Esteva, M., Bermejo, F. J., Hassaine, M. and Ramos, M. A.), In The Journal of Chemical Physics, volume 143, 2015.
Bibtex Entry:
@article{vdovichenko_thermal_2015, title = {Thermal properties of halogen-ethane glassy crystals: {Effects} of orientational disorder and the role of internal molecular degrees of freedom}, volume = {143}, issn = {0021-9606}, shorttitle = {Thermal properties of halogen-ethane glassy crystals}, url = {https://aip.scitation.org/doi/10.1063/1.4929530}, doi = {10.1063/1.4929530}, abstract = {The thermal conductivity, specific heat, and specific volume of the orientational glass former 1,1,2-trichloro-1,2,2-trifluoroethane (CCl2F–CClF2, F-113) have been measured under equilibrium pressure within the low-temperature range, showing thermodynamic anomalies at ca. 120, 72, and 20 K. The results are discussed together with those pertaining to the structurally related 1,1,2,2-tetrachloro-1,2-difluoroethane (CCl2F–CCl2F, F-112), which also shows anomalies at 130, 90, and 60 K. The rich phase behavior of these compounds can be accounted for by the interplay between several of their degrees of freedom. The arrest of the degrees of freedom corresponding to the internal molecular rotation, responsible for the existence of two energetically distinct isomers, and the overall molecular orientation, source of the characteristic orientational disorder of plastic phases, can explain the anomalies at higher and intermediate temperatures, respectively. The soft-potential model has been used as the framework to describe the thermal properties at low temperatures. We show that the low-temperature anomaly of the compounds corresponds to a secondary relaxation, which can be associated with the appearance of Umklapp processes, i.e., anharmonic phonon-phonon scattering, that dominate thermal transport in that temperature range.}, number = {8}, urldate = {2021-07-13}, journal = {The Journal of Chemical Physics}, author = {Vdovichenko, G. A. and Krivchikov, A. I. and Korolyuk, O. A. and Tamarit, J. Ll. and Pardo, L. C. and Rovira-Esteva, M. and Bermejo, F. J. and Hassaine, M. and Ramos, M. A.}, month = aug, year = {2015}, note = {No CMAM}, pages = {084510}, file = {Full Text PDF:E:\Usuarios\Administrator\Zotero\storage\EMUDXKIK\Vdovichenko et al. - 2015 - Thermal properties of halogen-ethane glassy crysta.pdf:application/pdf}, }