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Factors determining the pattern of a hydrogen-bonding network in the diastereomeric salts of 1-arylethylamines with enantiopure P-chiral acids

✍ Scribed by Yuka Kobayashi; Hiroaki Handa; Jin Maeda; Kazuhiko Saigo

Book ID
102079500
Publisher
John Wiley and Sons
Year
2008
Tongue
English
Weight
370 KB
Volume
20
Category
Article
ISSN
0899-0042

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✦ Synopsis

Abstract

In order to clarify factor(s) determining the pattern of a hydrogen‐bonding network in the diastereomeric salts of 1‐arylethylamines (1) with enantiopure P‐chiral acids, three kinds of enantiopure P‐chiral alkylphenylphosphinothioic acids (3) were synthesized, and their chiral recognition abilities for racemic 1 were examined. The characteristics of the diastereomeric salt crystals of 1 with 3 were then studied on the basis of their X‐ray crystallographic analyses. Statistical analysis on the molecular conformations observed in the diastereomeric salts with 3 as well as those with P‐chiral O‐alkyl arylphosphonothioic acids (2), which have a chemical structure similar to that of 3, and molecular orbital calculations for 2 and 3 in a gas phase revealed that the torsion angle between the aromatic plane and the PO(alkoxy in 2) or PC(alkyl in 3) plays an important role in determining the pattern of a hydrogen‐bonding network in the diastereomeric salts, either a closed globular cluster or an infinite 2~1~ column type. The calculations also indicated that there is a hydrogen‐bonding‐like interaction between the ammonium hydrogen atom of 1‐arylethylammonium cations and the PO(alkoxy) oxygen atom of phosphonothioate anions in the clusters. Chirality, 2008. © 2008 Wiley‐Liss, Inc.

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