Stereognostic coordination chemistry .4. The design and synthesis of a selective uranyl ion complexant

P H  Walton; K N  Raymond

Stereognostic coordination chemistry .4. The design and synthesis of a selective uranyl ion complexant

Chemistry

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

Abstract

A new approach to ligand design for the sequestration of metal-ore cations has been called stereognostic coordination chemistry, in that the ligand incorporates a traditional Lewis base coordination to the metal center and a hydrogen bond donor to interact with the oxo group. This paper reports the synthesis of ligands that are more rigid and sterically predisposed to bind the targeted UO22+ cation. These are the tripod ligands tris-N,N,N''-[2-(2-carboxy-phenoxy) ethyl]-1,4,7-triazacyclononane bis-hydrochloride (ETAC . 2HCl) and tris-N,N',N''-[2-(2-carboxy-4-decyl-phenoxy) ethyl]-1,4,7-triazacyclononane tris-hydrochloride (DETAC . 3HCl), which chelate uranyl with a tris-carboxylate coordination sphere and provide a hydrogen bond donor through a protonated amine on the triazacyclononane macrocycle to interact with one uranyl oxo atom. Structural models predict that upon uranyl binding the hydrogen bond donor must point directly towards the oxo atom, enforcing a stereognostic interaction. Both ETAC and DETAC chelate the uranyl ion; DETAC is a powerful extractant and will quantitatively extract uranyl into an organic phase at pH 1.9 and above. The extraction coefficient is estimated to be 10(14) in neutral aqueous conditions. Vibrational spectra of O-18 labeled UO22+ have been used to probe the stereognostic coordination to uranyl utilizing hydrogen bonding.

Original language	English
Pages (from-to)	593-601
Number of pages	9
Journal	INORGANICA CHIMICA ACTA
Volume	240
Issue number	1-2
Publication status	Published - Dec 1995

Keywords

uranyl complexes
stereognostic ligand complexes
tripod ligand complexes
HUMIC-LIKE MODELS
SUPRAMOLECULAR CHEMISTRY
MOLECULAR-STRUCTURE
CROWN ETHERS
METAL-IONS
RECEPTORS
CAVITIES
LECTURE
LIGANDS

Cite this

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title = "Stereognostic coordination chemistry .4. The design and synthesis of a selective uranyl ion complexant",

abstract = "A new approach to ligand design for the sequestration of metal-ore cations has been called stereognostic coordination chemistry, in that the ligand incorporates a traditional Lewis base coordination to the metal center and a hydrogen bond donor to interact with the oxo group. This paper reports the synthesis of ligands that are more rigid and sterically predisposed to bind the targeted UO22+ cation. These are the tripod ligands tris-N,N,N''-[2-(2-carboxy-phenoxy) ethyl]-1,4,7-triazacyclononane bis-hydrochloride (ETAC . 2HCl) and tris-N,N',N''-[2-(2-carboxy-4-decyl-phenoxy) ethyl]-1,4,7-triazacyclononane tris-hydrochloride (DETAC . 3HCl), which chelate uranyl with a tris-carboxylate coordination sphere and provide a hydrogen bond donor through a protonated amine on the triazacyclononane macrocycle to interact with one uranyl oxo atom. Structural models predict that upon uranyl binding the hydrogen bond donor must point directly towards the oxo atom, enforcing a stereognostic interaction. Both ETAC and DETAC chelate the uranyl ion; DETAC is a powerful extractant and will quantitatively extract uranyl into an organic phase at pH 1.9 and above. The extraction coefficient is estimated to be 10(14) in neutral aqueous conditions. Vibrational spectra of O-18 labeled UO22+ have been used to probe the stereognostic coordination to uranyl utilizing hydrogen bonding.",

keywords = "uranyl complexes, stereognostic ligand complexes, tripod ligand complexes, HUMIC-LIKE MODELS, SUPRAMOLECULAR CHEMISTRY, MOLECULAR-STRUCTURE, CROWN ETHERS, METAL-IONS, RECEPTORS, CAVITIES, LECTURE, LIGANDS",

author = "Walton, {P H} and Raymond, {K N}",

year = "1995",

month = dec,

language = "English",

volume = "240",

pages = "593--601",

journal = "INORGANICA CHIMICA ACTA",

issn = "0020-1693",

publisher = "Elsevier",

number = "1-2",

}

TY - JOUR

T1 - Stereognostic coordination chemistry .4. The design and synthesis of a selective uranyl ion complexant

AU - Walton, P H

AU - Raymond, K N

PY - 1995/12

Y1 - 1995/12

N2 - A new approach to ligand design for the sequestration of metal-ore cations has been called stereognostic coordination chemistry, in that the ligand incorporates a traditional Lewis base coordination to the metal center and a hydrogen bond donor to interact with the oxo group. This paper reports the synthesis of ligands that are more rigid and sterically predisposed to bind the targeted UO22+ cation. These are the tripod ligands tris-N,N,N''-[2-(2-carboxy-phenoxy) ethyl]-1,4,7-triazacyclononane bis-hydrochloride (ETAC . 2HCl) and tris-N,N',N''-[2-(2-carboxy-4-decyl-phenoxy) ethyl]-1,4,7-triazacyclononane tris-hydrochloride (DETAC . 3HCl), which chelate uranyl with a tris-carboxylate coordination sphere and provide a hydrogen bond donor through a protonated amine on the triazacyclononane macrocycle to interact with one uranyl oxo atom. Structural models predict that upon uranyl binding the hydrogen bond donor must point directly towards the oxo atom, enforcing a stereognostic interaction. Both ETAC and DETAC chelate the uranyl ion; DETAC is a powerful extractant and will quantitatively extract uranyl into an organic phase at pH 1.9 and above. The extraction coefficient is estimated to be 10(14) in neutral aqueous conditions. Vibrational spectra of O-18 labeled UO22+ have been used to probe the stereognostic coordination to uranyl utilizing hydrogen bonding.

AB - A new approach to ligand design for the sequestration of metal-ore cations has been called stereognostic coordination chemistry, in that the ligand incorporates a traditional Lewis base coordination to the metal center and a hydrogen bond donor to interact with the oxo group. This paper reports the synthesis of ligands that are more rigid and sterically predisposed to bind the targeted UO22+ cation. These are the tripod ligands tris-N,N,N''-[2-(2-carboxy-phenoxy) ethyl]-1,4,7-triazacyclononane bis-hydrochloride (ETAC . 2HCl) and tris-N,N',N''-[2-(2-carboxy-4-decyl-phenoxy) ethyl]-1,4,7-triazacyclononane tris-hydrochloride (DETAC . 3HCl), which chelate uranyl with a tris-carboxylate coordination sphere and provide a hydrogen bond donor through a protonated amine on the triazacyclononane macrocycle to interact with one uranyl oxo atom. Structural models predict that upon uranyl binding the hydrogen bond donor must point directly towards the oxo atom, enforcing a stereognostic interaction. Both ETAC and DETAC chelate the uranyl ion; DETAC is a powerful extractant and will quantitatively extract uranyl into an organic phase at pH 1.9 and above. The extraction coefficient is estimated to be 10(14) in neutral aqueous conditions. Vibrational spectra of O-18 labeled UO22+ have been used to probe the stereognostic coordination to uranyl utilizing hydrogen bonding.

KW - uranyl complexes

KW - stereognostic ligand complexes

KW - tripod ligand complexes

KW - HUMIC-LIKE MODELS

KW - SUPRAMOLECULAR CHEMISTRY

KW - MOLECULAR-STRUCTURE

KW - CROWN ETHERS

KW - METAL-IONS

KW - RECEPTORS

KW - CAVITIES

KW - LECTURE

KW - LIGANDS

M3 - Article

SN - 0020-1693

VL - 240

SP - 593

EP - 601

JO - INORGANICA CHIMICA ACTA

JF - INORGANICA CHIMICA ACTA

IS - 1-2

ER -