Exploring the Subtle Effect of Aliphatic Ring Size on Minor Actinide‐Extraction Properties and Metal Ion Speciation in Bis‐1,2,4‐Triazine Ligands

Exploring the Subtle Effect of Aliphatic Ring Size on Minor Actinide‐Extraction Properties and Metal Ion Speciation in Bis‐1,2,4‐Triazine Ligands

The synthesis and evaluation of three novel bis‐1,2,4‐triazine ligands containing five‐membered aliphatic rings are reported. Compared to the more hydrophobic ligands 1–3 containing six‐membered aliphatic rings, the distribution ratios for relevant f‐block metal ions were approximately one order of...

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Veröffentlicht in:Chemistry : a European journal 2020-01, Vol.26 (2), p.428-437
Hauptverfasser: Zaytsev, Andrey V., Bulmer, Rachel, Kozhevnikov, Valery N., Sims, Mark, Modolo, Giuseppe, Wilden, Andreas, Waddell, Paul G., Geist, Andreas, Panak, Petra J., Wessling, Patrik, Lewis, Frank W.
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actinides
Aliphatic compounds
Chemistry
Coordination compounds
Crystallography
Fluorescence
Fluorescence spectroscopy
Hydrophobicity
Ions
lanthanides
Ligands
Metal ions
Nitric acid
NMR
Nuclear magnetic resonance
solvent extraction
Speciation
spent nuclear fuel
Stoichiometry
Triazine
triazine ligands
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container_issue 2
container_start_page 428
container_title Chemistry : a European journal
container_volume 26
creator Zaytsev, Andrey V.
Bulmer, Rachel
Kozhevnikov, Valery N.
Sims, Mark
Modolo, Giuseppe
Wilden, Andreas
Waddell, Paul G.
Geist, Andreas
Panak, Petra J.
Wessling, Patrik
Lewis, Frank W.
description The synthesis and evaluation of three novel bis‐1,2,4‐triazine ligands containing five‐membered aliphatic rings are reported. Compared to the more hydrophobic ligands 1–3 containing six‐membered aliphatic rings, the distribution ratios for relevant f‐block metal ions were approximately one order of magnitude lower in each case. Ligand 10 showed an efficient, selective and rapid separation of AmIII and CmIII from nitric acid. The speciation of the ligands with trivalent f‐block metal ions was probed using NMR titrations and competition experiments, time‐resolved laser fluorescence spectroscopy and X‐ray crystallography. While the tetradentate ligands 8 and 10 formed LnIII complexes of the same stoichiometry as their more hydrophobic analogues 2 and 3, significant differences in speciation were observed between the two classes of ligand, with a lower percentage of the extracted 1:2 complexes being formed for ligands 8 and 10. The structures of the solid state 1:1 and 1:2 complexes formed by 8 and 10 with YIII, LuIII and PrIII are very similar to those formed by 2 and 3 with LnIII. Ligand 10 forms CmIII and EuIII 1:2 complexes that are thermodynamically less stable than those formed by ligand 3, suggesting that less hydrophobic ligands form less stable AnIII complexes. Thus, it has been shown for the first time how tuning the cyclic aliphatic part of these ligands leads to subtle changes in their metal ion speciation, complex stability and metal extraction affinity. Calling all actinides! Bis‐1,2,4‐triazine ligands bearing five‐membered rings were synthesized and evaluated as actinide‐selective extractants. Tuning the size of the aliphatic ring leads to subtle changes in actinide‐extraction properties. The origins of these changes were elucidated at the molecular level, paving the way for the rational design of improved actinide‐selective extractants for reprocessing of spent nuclear fuel.,
doi_str_mv 10.1002/chem.201903685
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Compared to the more hydrophobic ligands 1–3 containing six‐membered aliphatic rings, the distribution ratios for relevant f‐block metal ions were approximately one order of magnitude lower in each case. Ligand 10 showed an efficient, selective and rapid separation of AmIII and CmIII from nitric acid. The speciation of the ligands with trivalent f‐block metal ions was probed using NMR titrations and competition experiments, time‐resolved laser fluorescence spectroscopy and X‐ray crystallography. While the tetradentate ligands 8 and 10 formed LnIII complexes of the same stoichiometry as their more hydrophobic analogues 2 and 3, significant differences in speciation were observed between the two classes of ligand, with a lower percentage of the extracted 1:2 complexes being formed for ligands 8 and 10. The structures of the solid state 1:1 and 1:2 complexes formed by 8 and 10 with YIII, LuIII and PrIII are very similar to those formed by 2 and 3 with LnIII. Ligand 10 forms CmIII and EuIII 1:2 complexes that are thermodynamically less stable than those formed by ligand 3, suggesting that less hydrophobic ligands form less stable AnIII complexes. Thus, it has been shown for the first time how tuning the cyclic aliphatic part of these ligands leads to subtle changes in their metal ion speciation, complex stability and metal extraction affinity. Calling all actinides! Bis‐1,2,4‐triazine ligands bearing five‐membered rings were synthesized and evaluated as actinide‐selective extractants. Tuning the size of the aliphatic ring leads to subtle changes in actinide‐extraction properties. The origins of these changes were elucidated at the molecular level, paving the way for the rational design of improved actinide‐selective extractants for reprocessing of spent nuclear fuel.,</description><identifier>ISSN: 0947-6539</identifier><identifier>EISSN: 1521-3765</identifier><identifier>DOI: 10.1002/chem.201903685</identifier><identifier>PMID: 31489718</identifier><language>eng</language><publisher>Germany: Wiley Subscription Services, Inc</publisher><subject>actinides ; Aliphatic compounds ; Chemistry ; Coordination compounds ; Crystallography ; Fluorescence ; Fluorescence spectroscopy ; Hydrophobicity ; Ions ; lanthanides ; Ligands ; Metal ions ; Nitric acid ; NMR ; Nuclear magnetic resonance ; solvent extraction ; Speciation ; spent nuclear fuel ; Stoichiometry ; Triazine ; triazine ligands</subject><ispartof>Chemistry : a European journal, 2020-01, Vol.26 (2), p.428-437</ispartof><rights>2020 Wiley‐VCH Verlag GmbH &amp; Co. 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Compared to the more hydrophobic ligands 1–3 containing six‐membered aliphatic rings, the distribution ratios for relevant f‐block metal ions were approximately one order of magnitude lower in each case. Ligand 10 showed an efficient, selective and rapid separation of AmIII and CmIII from nitric acid. The speciation of the ligands with trivalent f‐block metal ions was probed using NMR titrations and competition experiments, time‐resolved laser fluorescence spectroscopy and X‐ray crystallography. While the tetradentate ligands 8 and 10 formed LnIII complexes of the same stoichiometry as their more hydrophobic analogues 2 and 3, significant differences in speciation were observed between the two classes of ligand, with a lower percentage of the extracted 1:2 complexes being formed for ligands 8 and 10. The structures of the solid state 1:1 and 1:2 complexes formed by 8 and 10 with YIII, LuIII and PrIII are very similar to those formed by 2 and 3 with LnIII. Ligand 10 forms CmIII and EuIII 1:2 complexes that are thermodynamically less stable than those formed by ligand 3, suggesting that less hydrophobic ligands form less stable AnIII complexes. Thus, it has been shown for the first time how tuning the cyclic aliphatic part of these ligands leads to subtle changes in their metal ion speciation, complex stability and metal extraction affinity. Calling all actinides! Bis‐1,2,4‐triazine ligands bearing five‐membered rings were synthesized and evaluated as actinide‐selective extractants. Tuning the size of the aliphatic ring leads to subtle changes in actinide‐extraction properties. 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Medical Complete (Alumni)</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Chemistry : a European journal</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Zaytsev, Andrey V.</au><au>Bulmer, Rachel</au><au>Kozhevnikov, Valery N.</au><au>Sims, Mark</au><au>Modolo, Giuseppe</au><au>Wilden, Andreas</au><au>Waddell, Paul G.</au><au>Geist, Andreas</au><au>Panak, Petra J.</au><au>Wessling, Patrik</au><au>Lewis, Frank W.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Exploring the Subtle Effect of Aliphatic Ring Size on Minor Actinide‐Extraction Properties and Metal Ion Speciation in Bis‐1,2,4‐Triazine Ligands</atitle><jtitle>Chemistry : a European journal</jtitle><addtitle>Chemistry</addtitle><date>2020-01-07</date><risdate>2020</risdate><volume>26</volume><issue>2</issue><spage>428</spage><epage>437</epage><pages>428-437</pages><issn>0947-6539</issn><eissn>1521-3765</eissn><abstract>The synthesis and evaluation of three novel bis‐1,2,4‐triazine ligands containing five‐membered aliphatic rings are reported. Compared to the more hydrophobic ligands 1–3 containing six‐membered aliphatic rings, the distribution ratios for relevant f‐block metal ions were approximately one order of magnitude lower in each case. Ligand 10 showed an efficient, selective and rapid separation of AmIII and CmIII from nitric acid. The speciation of the ligands with trivalent f‐block metal ions was probed using NMR titrations and competition experiments, time‐resolved laser fluorescence spectroscopy and X‐ray crystallography. While the tetradentate ligands 8 and 10 formed LnIII complexes of the same stoichiometry as their more hydrophobic analogues 2 and 3, significant differences in speciation were observed between the two classes of ligand, with a lower percentage of the extracted 1:2 complexes being formed for ligands 8 and 10. The structures of the solid state 1:1 and 1:2 complexes formed by 8 and 10 with YIII, LuIII and PrIII are very similar to those formed by 2 and 3 with LnIII. Ligand 10 forms CmIII and EuIII 1:2 complexes that are thermodynamically less stable than those formed by ligand 3, suggesting that less hydrophobic ligands form less stable AnIII complexes. Thus, it has been shown for the first time how tuning the cyclic aliphatic part of these ligands leads to subtle changes in their metal ion speciation, complex stability and metal extraction affinity. Calling all actinides! Bis‐1,2,4‐triazine ligands bearing five‐membered rings were synthesized and evaluated as actinide‐selective extractants. Tuning the size of the aliphatic ring leads to subtle changes in actinide‐extraction properties. 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subjects actinides
Aliphatic compounds
Chemistry
Coordination compounds
Crystallography
Fluorescence
Fluorescence spectroscopy
Hydrophobicity
Ions
lanthanides
Ligands
Metal ions
Nitric acid
NMR
Nuclear magnetic resonance
solvent extraction
Speciation
spent nuclear fuel
Stoichiometry
Triazine
triazine ligands
title Exploring the Subtle Effect of Aliphatic Ring Size on Minor Actinide‐Extraction Properties and Metal Ion Speciation in Bis‐1,2,4‐Triazine Ligands
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