Chiral hybrid aza-oxa-terpene-based macrocycles as selective extractants for Pd(II) and Au(III)

A series of novel hybride chiral macrocyclic compounds is described. The macrocyclic core of the new compounds is decorated with monoterpene fragments and includes 2 imine nitrogens and 2 tertiary amine nitrogens of the N,N-piperazine linkage as well as several repeating ethyleneoxy units resembling...

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Bibliographic Details
Published inTetrahedron Vol. 156; pp. 133921 - 133935
Main Authors Tkachev, Alexey V., Agafontsev, Alexander M., Zubricheva, Darya V., Bagryanskaya, Irina Yu, Tikhova, Vera D.
Format Journal Article
LanguageEnglish
Published OXFORD Elsevier Ltd 28.04.2024
Elsevier
Subjects
Bis(α-amine oximes)
Chemistry
Chemistry, Organic
Macrocycles
Noble metals
Physical Sciences
Science & Technology
Selective extraction
Terpenoids
Bis(α-amine oximes)
Selective extraction
Noble metals
Macrocycles
Terpenoids
COMPLEXES
STEREOCHEMISTRY
CRYSTAL-STRUCTURES
Bis( alpha-amine oximes)
PDCL2
ALPHA-AMINO-OXIMES
LIGANDS
SCHIFF-BASES
CONDENSATION
BASIS-SETS
CROWN-ETHERS
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Summary:A series of novel hybride chiral macrocyclic compounds is described. The macrocyclic core of the new compounds is decorated with monoterpene fragments and includes 2 imine nitrogens and 2 tertiary amine nitrogens of the N,N-piperazine linkage as well as several repeating ethyleneoxy units resembling those of crown ethers. The macrocyclic compounds are prepared in moderate preparative yield (16–31%) upon treatment of a mixture of bis(α-amine oximes) and α,ω-dichloro derivatives of tri-, tetra- and hexa-ethylene glycol with sodium methylsulfinylmethylide. Chemical structure of the new macrocycles was established by a complex of spectroscopic techniques and X-ray analysis. The new macrocyclic compounds demonstrate remarkable selectivity with respect to Pd(II) and Au(III) and are able to efficiently extract these metals from acidic media containing a complex mixture of alkali metals, 3d-elements and noble metals. The features of conformational behavior, the ability to form complexes and the selectivity of extraction were studied using quantum chemical calculations at the DFT level. Based on the data obtained, a consistent scheme has been formulated to explain the features of extraction and the extraction selectivity of individual macrocycles. [Display omitted]
ISSN:0040-4020
1464-5416
DOI:10.1016/j.tet.2024.133921