Orientational ordering of a bent-core mesogen by two-dimensional 13C NMR spectroscopy

J. Xu; K. Fodor-Csorba; Ronald Y. Dong

doi:10.1021/jp045644y

Orientational ordering of a bent-core mesogen by two-dimensional ¹³C NMR spectroscopy

J. Xu, K. Fodor-Csorba, Ronald Y. Dong

Research output: Contribution to journal › Article › peer-review

Abstract

Various two-dimensional (2D) NMR techniques are reported on a bent-core mesogen 4,6-dichloro-1,3phenylenebis[4′-(9-decenyloxy)-1,1′- biphenyl] carboxylate in its nematic and solid phases in order to unambiguously assign its carbon-13 NMR spectrum. The ¹³C chemical shifts from the molecular core were studied as a function of temperature to extract its molecular geometry and orientational order tensor. To this end, the chemical shift anisotropy tensors of some carbon sites were measured in the solid state of this mesogen using a recent method called the separation of undistorted powder patterns by effortless recoupling (SUPER). The average bending angle subtended by the two arms of the bent-core structure is determined to be 148.7°. The C-H dipolar couplings obtained from the separated local field (SLF) experiment for the aromatic rings are used to find the local order parameter tensors.

Original language	English (US)
Pages (from-to)	1998-2005
Number of pages	8
Journal	Journal of Physical Chemistry A
Volume	109
Issue number	9
DOIs	https://doi.org/10.1021/jp045644y
State	Published - Mar 10 2005
Externally published	Yes

ASJC Scopus subject areas

Physical and Theoretical Chemistry

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10.1021/jp045644y

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title = "Orientational ordering of a bent-core mesogen by two-dimensional 13C NMR spectroscopy",

abstract = "Various two-dimensional (2D) NMR techniques are reported on a bent-core mesogen 4,6-dichloro-1,3phenylenebis[4′-(9-decenyloxy)-1,1′- biphenyl] carboxylate in its nematic and solid phases in order to unambiguously assign its carbon-13 NMR spectrum. The 13C chemical shifts from the molecular core were studied as a function of temperature to extract its molecular geometry and orientational order tensor. To this end, the chemical shift anisotropy tensors of some carbon sites were measured in the solid state of this mesogen using a recent method called the separation of undistorted powder patterns by effortless recoupling (SUPER). The average bending angle subtended by the two arms of the bent-core structure is determined to be 148.7°. The C-H dipolar couplings obtained from the separated local field (SLF) experiment for the aromatic rings are used to find the local order parameter tensors.",

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AU - Fodor-Csorba, K.

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N2 - Various two-dimensional (2D) NMR techniques are reported on a bent-core mesogen 4,6-dichloro-1,3phenylenebis[4′-(9-decenyloxy)-1,1′- biphenyl] carboxylate in its nematic and solid phases in order to unambiguously assign its carbon-13 NMR spectrum. The 13C chemical shifts from the molecular core were studied as a function of temperature to extract its molecular geometry and orientational order tensor. To this end, the chemical shift anisotropy tensors of some carbon sites were measured in the solid state of this mesogen using a recent method called the separation of undistorted powder patterns by effortless recoupling (SUPER). The average bending angle subtended by the two arms of the bent-core structure is determined to be 148.7°. The C-H dipolar couplings obtained from the separated local field (SLF) experiment for the aromatic rings are used to find the local order parameter tensors.

AB - Various two-dimensional (2D) NMR techniques are reported on a bent-core mesogen 4,6-dichloro-1,3phenylenebis[4′-(9-decenyloxy)-1,1′- biphenyl] carboxylate in its nematic and solid phases in order to unambiguously assign its carbon-13 NMR spectrum. The 13C chemical shifts from the molecular core were studied as a function of temperature to extract its molecular geometry and orientational order tensor. To this end, the chemical shift anisotropy tensors of some carbon sites were measured in the solid state of this mesogen using a recent method called the separation of undistorted powder patterns by effortless recoupling (SUPER). The average bending angle subtended by the two arms of the bent-core structure is determined to be 148.7°. The C-H dipolar couplings obtained from the separated local field (SLF) experiment for the aromatic rings are used to find the local order parameter tensors.

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Orientational ordering of a bent-core mesogen by two-dimensional ¹³C NMR spectroscopy

Abstract

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