Orientation and conformation of two [6]carbohelicenes in stretched polystyrene and a thermoresponsive polyaspartate

Two functionalized [6]carbohelicenes, one of which was also available in its two enantiomeric pure forms, were oriented in stretched polystyrene in CDCl3, and in a recently introduced chiral thermoresponsive lyotropic polyaspartate (poly(benzyl)0.5(phenethyl)0.5‐L‐aspartate) in C2D2Cl4. From the res...

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Veröffentlicht in:	Magnetic resonance in chemistry 2019-11, Vol.57 (11), p.961-967
Hauptverfasser:	Doppler, Anna, Nicholls, Leo D.M., Golz, Christopher, Alcarazo, Manuel, John, Michael
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Sprache:	eng
Schlagworte:	alignment Couplings Crystal structure Crystals enantiodifferentiation Enantiomers helicenes Liquid crystals NMR spectroscopy Phase transitions Polystyrene resins residual dipolar couplings
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container_title	Magnetic resonance in chemistry
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creator	Doppler, Anna Nicholls, Leo D.M. Golz, Christopher Alcarazo, Manuel John, Michael
description	Two functionalized [6]carbohelicenes, one of which was also available in its two enantiomeric pure forms, were oriented in stretched polystyrene in CDCl3, and in a recently introduced chiral thermoresponsive lyotropic polyaspartate (poly(benzyl)0.5(phenethyl)0.5‐L‐aspartate) in C2D2Cl4. From the resulting 1H,13C residual dipolar couplings, the helical pitch of a methylated [6]carbohelicene was determined and found to be in agreement with theoretical predictions and existing crystal structures (d(C2,C2′) ≈ 4.3 Å). For a second [6]carbohelicene with para‐methoxyphenyl substituents, a clear conformational preference of the substituents was observed. The orientational properties of the two helicene enantiomers in the chiral polyaspartate are very similar, but both drastically change around 306 K. We suggest this behavior is due to an unusual phase transition in the liquid crystal. Residual dipolar couplings (RDCs) in two alignment media were used to determine helical pitch and substituent conformation in two [6]carbohelicenes. Temperature‐dependent orientation and diffusion in the thermoresponsive polyaspartate suggest an unusual phase transition.
doi_str_mv	10.1002/mrc.4921
format	Article
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From the resulting 1H,13C residual dipolar couplings, the helical pitch of a methylated [6]carbohelicene was determined and found to be in agreement with theoretical predictions and existing crystal structures (d(C2,C2′) ≈ 4.3 Å). For a second [6]carbohelicene with para‐methoxyphenyl substituents, a clear conformational preference of the substituents was observed. The orientational properties of the two helicene enantiomers in the chiral polyaspartate are very similar, but both drastically change around 306 K. We suggest this behavior is due to an unusual phase transition in the liquid crystal. Residual dipolar couplings (RDCs) in two alignment media were used to determine helical pitch and substituent conformation in two [6]carbohelicenes. 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subjects	alignment Couplings Crystal structure Crystals enantiodifferentiation Enantiomers helicenes Liquid crystals NMR spectroscopy Phase transitions Polystyrene resins residual dipolar couplings
title	Orientation and conformation of two [6]carbohelicenes in stretched polystyrene and a thermoresponsive polyaspartate
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