Rotational correlation time explained
Rotational correlation time (
) is the average time it takes for a
molecule to rotate one
radian.
In solution, rotational correlation times are in the order of picoseconds. For example, the
1.7 ps for water,
[1] and 100 ps for a pyrroline nitroxyl radical in a DMSO-water mixture.
[2] Rotational correlation times are employed in the measurement of
microviscosity (viscosity at the molecular level) and in protein characterization.
Rotational correlation times may be measured by rotational (microwave), dielectric, and nuclear magnetic resonance (NMR) spectroscopy.[3] Rotational correlation times of probe molecules in media have been measured by fluorescence lifetime or for radicals, from the linewidths of electron spin resonances.
Notes and References
- Lankhorst. D.. Schriever. J.. Leyte. J. C.. March 1982. Determination of the Rotational Correlation Time of Water by Proton NMR Relaxation in H217O and Some Related Results. Berichte der Bunsengesellschaft für physikalische Chemie. 86. 3. 215–221. 10.1002/bbpc.19820860308.
- Bulla. Ivan. Törmälä. Pertti. Lindberg. J. Johan. Mikalsen. Øyvind. Southern. J. T.. Edlund. Kaj. Eliasen. Mogens. Herskind. Carsten. Laursen. Thomas. Spin Probe Studies on the Dynamic Structure of Dimethyl Sulfoxide-Water Mixtures.. Acta Chemica Scandinavica. 1975 . en. 29a. 89–92. 10.3891/acta.chem.scand.29a-0089. free.
- Web site: 8.1 Relaxation in NMR Spectroscopy. Reich. Hans J.. organicchemistrydata.org. 2020-09-12.