4.6 Article

DOTP versus DOTA as Ligands for Lanthanide Cations: Novel Structurally Characterized CeIV and CeIII Cyclen-Based Complexes and Clusters in Aqueous Solutions

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CHEMISTRY-A EUROPEAN JOURNAL
卷 28, 期 61, 页码 -

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WILEY-V C H VERLAG GMBH
DOI: 10.1002/chem.202201868

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cerium; cluster compounds; coordination chemistry; structure; macrocyclic ligands; redox chemistry

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The coordination and redox chemistry of aqueous Ce-IV/III macrocyclic compounds were studied using the ligands DOTA and DOTP. It was found that DOTA forms a highly ordered oxo-hydroxo structure, while the presence of DOTP leads to the decomposition of the complex. The study also suggests that cyclen-derived ligands are better suited for encapsulating and stabilizing softer cations than harder ones.
The coordination and redox chemistry of aqueous Ce-IV/III macrocyclic compounds were studied by using the ligands DOTA and DOTP (1,4,7,10-tetraazacyclododecane-1,4,7,10-tetrayl)tetraacetic acid and 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetra(methylene phosphonic acid), respectively). The hydrolysis tendency of the tetravalent cation in the presence of DOTA is shown to result in the formation of a highly ordered, fluorite-like [Ce-6(IV)(O)(4)(OH)(4)(H2O)(8)(DOTAH)(4)] oxo-hydroxo structure both in solution and in the solid state. The lifetime of the analogous species formed in the presence of DOTP was found to be much shorter. Spectroscopic measurements of the latter suggest its similarity to the former. Its gradual decomposition in solution leads to the accumulation of the in-cage complexes [(CeDOTP)-D-IV] and [(CeDOTP)-D-III(H2O)], which were crystallographically characterized in this study. The redox energetics and spectroscopic characteristics for the transition between these two in-cage complexes in aqueous solutions were studied as well. Together with the crystallographic structures of the above-mentioned species, the in-cage [Ce(IV)DOTA(H2O)] complex structure is presented herein for the first time. An elaborative analysis of the X-ray crystallographic structural data obtained for the in-cage complexes studied herein and similar structures published previously suggests that hard-bonding cyclen-derived ligands are, counter-intuitively, better suited for encapsulating, and perhaps kinetically stabilize softer cations than harder ones with DOTP, marked as a possible adequate chelator for the study of the aqueous properties of Ln(II) and Ac-III cations.

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