Extremely Slow Counterion Dynamics in Xanthan Liquid Crystal through 23Na and 14N NMR

To describe the structure and dynamics in a lyotropic xanthan liquid crystal, we have done 23Na and 14N NMR experiments. The spectra are consistent with a powder average over randomly oriented liquid-crystalline domains. From 14N quadrupolar echo experiments it was concluded that the exchange among...

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Veröffentlicht in:	The journal of physical chemistry. B 2002-04, Vol.106 (15), p.3864-3871
Hauptverfasser:	van der Maarel, J. R. C, Woessner, D. E, Merritt, M. E
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creator	van der Maarel, J. R. C Woessner, D. E Merritt, M. E
description	To describe the structure and dynamics in a lyotropic xanthan liquid crystal, we have done 23Na and 14N NMR experiments. The spectra are consistent with a powder average over randomly oriented liquid-crystalline domains. From 14N quadrupolar echo experiments it was concluded that the exchange among the several micron sized domains is slow with residence times in the millisecond range. Conventional spin-lock experiments (14N and 23Na) as well as spin-lock experiments filtered through the quadrupolar spin polarization order (23Na only) revealed the existence of an extremely low frequency, submegahertz dispersion in the spectral densities pertaining to both sodium and ammonium counterions. The corresponding correlation times are on the order of tens of microseconds and agree with a structural correlation length on the order of 500 nm. The latter correlation times reflect the rearrangement of counterions among polymer segments over the same spatial extent as the polymer persistence length.
doi_str_mv	10.1021/jp014277c
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title	Extremely Slow Counterion Dynamics in Xanthan Liquid Crystal through 23Na and 14N NMR
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