Journal ArticleDOI
Chlorine-35 NQR and 1H NMR study of guest structure and dynamics in the thiourea-hexachloroethane inclusion compound
TLDR
In this paper, the authors present results of 35Cl NQR and 1H NMR measurements of thiourea-hexachloroethane, [2.95(NH2)2CS]C2Cl6, in the temperature range from 7.5 to 90 K, which confirm the existence of such a state at least below 60 K.Abstract:
Atom-atomic potential calculation of the channel non-stoichiometric thiourea-hexachloroethane inclusion compound shows that the structure of the guest sublattice comprises two types of finite molecular chain, having different structure and separated by domain walls. In the present paper we present results of 35Cl NQR and 1H NMR measurements of thiourea-hexachloroethane, [2.95(NH2)2CS]C2Cl6, in the temperature range from 7.5 to 90 K, which confirm this model and show the existence of such a state at least below 60 K. Two resonances in the NQR spectra were assigned to the two nearly commensurate regions, while the third resonance, showing an anomalous behaviour, was attributed to the guest molecules in the domain wall. The observed structure results from the different periodicity of the guest and host substructures and shows a difference from conventional continuum models of the incommensurate state. Propagation motion of the domain wall over the channel is discussed.read more
Citations
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Devil's staircase and order without periodicity in classical condensed matter
TL;DR: The existence of incommensurate structures proves that a crystalline ordering is not always the most stable one for non-quantum matter as mentioned in this paper, and the existence of such structures is proved in the Frenkel-Kontorova and related models.
Journal ArticleDOI
Ultraslow motion of domain wall in channel inclusion compound studied by means of NMR cross-relaxation
TL;DR: In this paper, temperature dependent 1H NMR relaxation measurements of the powder thiourea-hexachloroethane inclusion compound, [2.95(NH2)2CS]·C2Cl6, at different resonance frequencies, from 23 to 55.5MHz, were reported.
Journal ArticleDOI
Investigation of the mobility of paraffin molecules in channel urea clathrates by nuclear magnetic resonance relaxation spectroscopy
TL;DR: In this paper, the temperature dependence of the proton spin-lattice relaxation time (T1) for channel urea clathrates with paraffin molecules was investigated.
Journal ArticleDOI
Crystal structure of the 1:3 thiourea-hexachloroethane inclusion compound at 295 K
Sergey F. Solodovnikov,Galina N. Chekhova,Galina V. Romanenko,Nina V. Podberezskaya,Z. A. Solodovnikova,D. V. Pinakov,A. R. Semenov +6 more
TL;DR: The crystal structure of the 1:3 thiourea-hexachloroethane inclusion compound at 295 K has been determined in this article, where the mutual arrangement of the carbon and chlorine atoms is such that they define four orientations of the C-C bond relative to the channel of the host framework.
Journal ArticleDOI
Phase Transitions in Channel Clathrates of Thiourea with Hexachloroethane and Tetrachloroethane
TL;DR: In this paper, an explanation for the nature of phase transitions in channel clathrates of thiourea with hexachloroethane and tetrachlorosethane was proposed.
References
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Relaxation Effects in Nuclear Magnetic Resonance Absorption
TL;DR: In this article, the authors studied the effect of the thermal motion of the magnetic nuclei upon the spin-spin interaction in a rigid lattice and the line width of the absorption line.
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Jerry L. Atwood,Jean-Marie Lehn +1 more
TL;DR: The aim of this book is to provide a history of Supramolecular Chemistry from its inception in the 1920s to the present day, with a focus on the period between 1950 and 1983.
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One-dimensional dislocations. I. Static theory
TL;DR: In this article, the theory of a one-dimensional dislocation model is developed, and critical conditions for spontaneous generation (or escape) of dislocations are determined, and also the activation energies for such processes below the critical limits.
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Commensurate phases, incommensurate phases and the devil's staircase
TL;DR: In this article, the authors survey recent theories on the transition between commensurate (C) and incommensurate phases, and on properties of the I phase, and the devil's staircase concept for the I phases is described.