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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 38, 1979 - Issue 5
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Original Articles

Anisotropic molecular rotation in solution: the interpretation of carbon-13 T1 data for triptycene and 9H-fluorene

Robin K. Harris School of Chemical Sciences, University of East Anglia, Norwich, NR4 7TJ, England
&
Roger H. Newman School of Chemical Sciences, University of East Anglia, Norwich, NR4 7TJ, England; Chemistry Division, DSIR, Private Bag, Petone, New Zealand
Pages 1315-1327 | Received 21 Jun 1978, Published online: 23 Aug 2006

Citations (19)

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Read on this site (7)

Alfons Kawski. (1993) Fluorescence Anisotropy: Theory and Applications of Rotational Depolarization. Critical Reviews in Analytical Chemistry 23:6, pages 459-529.
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Andreas Dölle & Thorsten Bluhm. (1986) Motional dynamics in liquid 1,2,3,4-tetrahydro-5,6-dimethyl-1,4-methanonaphthalene. Molecular Physics 59:4, pages 721-736.
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RobinK. Harris & RogerH. Newman. (1985) Carbon-13 and silicon-29 spin-lattice relaxation in phenylmethanes and phenylsilanes. Molecular Physics 54:5, pages 1021-1034.
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Th. Bluhm. (1984) Anisotropic rotational motion and internal rotation in liquid methylbenzenes. Molecular Physics 52:6, pages 1335-1354.
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P.C.M. van Zijl, N.H. Velthorst & C. MacLean. (1983) Anisotropy and asymmetry of diamagnetic susceptibility, quadrupole coupling constants and molecular motion of fluorene and the fluorenyl carbanion. Molecular Physics 49:2, pages 315-324.
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N.C. Pyper. (1982) The vibrational dependence of bond lengths in nuclear spin dipole relaxation. Molecular Physics 45:2, pages 441-449.
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RobinK. Harris & RogerH. Newman. (1981) Effect of solvents on carbon-13 spin-lattice relaxation in 1-phenyladamantane. Molecular Physics 43:5, pages 1069-1081.
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Articles from other publishers (12)

Xing Jiang, Hai-Bao Duan, Saeed I. Khan & Miguel A. Garcia-Garibay. (2016) Diffusion-Controlled Rotation of Triptycene in a Metal–Organic Framework (MOF) Sheds Light on the Viscosity of MOF-Confined Solvent. ACS Central Science 2:9, pages 608-613.
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Kyle B. Nichols & A. A. Rodriguez. (2005) Comparison of and Investigation into the Size Effects on the Rotational Dynamics of Two Spherical Molecules:  CCl 4 and C 60 . The Journal of Physical Chemistry A 109:13, pages 3009-3014.
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Ralf Peter Klüner & Andreas Dölle. (1997) Friction Coefficients and Correlation Times for Anisotropic Rotational Diffusion of Molecules in Liquids Obtained from Hydrodynamic Models and 13 C Relaxation Data . The Journal of Physical Chemistry A 101:9, pages 1657-1661.
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Photis Dais. 1995. 63 131 .
D. Pissas, Photis Dais & Francoise Sauriol. (2005) Two‐dimensional NMR and 13 C spin—lattice relaxation study of methyl fluorene‐3‐carboxylate . Magnetic Resonance in Chemistry 29:12, pages 1181-1190.
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Y. Brunel, C. Coulombeau, S. Lavaitte & J. Reisse. (2004) Internal rotation of CH 3 groups and entropy difference between diastereoisomers: A 13 C NMR study via relaxation time measurements . Journal of Physical Organic Chemistry 4:2, pages 113-120.
Crossref
Jozef Kowalewski. 1991. Annual Reports on NMR Spectroscopy Volume 23. Annual Reports on NMR Spectroscopy Volume 23 289 374 .
Andreas Dölle & Thorsten Bluhm. (1989) Orientation of the rotational diffusion principal axis system determined by nuclear relaxation data. Progress in Nuclear Magnetic Resonance Spectroscopy 21:1-2, pages 175-201.
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Fritz VögtleFritz Vögtle. 1989. Reizvolle Moleküle der Organischen Chemie. Reizvolle Moleküle der Organischen Chemie 209 273 .
René T. Boeré & R. Garth Kidd. 1983. 319 385 .
Jeremy K.M. Sanders & John D. Mersh. (1982) Nuclear magnetic double resonance; the use of difference spectroscopy. Progress in Nuclear Magnetic Resonance Spectroscopy 15:4, pages 353-400.
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Buu Ban. (1981) Nuclear magnetic relaxation resulting from the axial oscillation as internal motion coupled to the anisotropic rotational diffusion as overall motion. Journal of Magnetic Resonance (1969) 45:1, pages 118-132.
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