Synthesis and characterization of a novel aminopolycarboxylate complexant for efficient trivalent f-element differentiation:: N -butyl-2-acetamide-diethylenetriamine- N, N ′, N ′′, N ′′-tetraacetic acid

Colt R. Heathman, Travis S. Grimes, Santa Jansone-Popova, Alexander S. Ivanov, Vyacheslav S. Bryantsev, Peter R. Zalupski

Research output: Contribution to journalArticlepeer-review

10 Scopus citations

Abstract

The novel metal ion complexant N-butyl-2-acetamide-diethylenetriamine-N,N′,N′′,N′′-tetraacetic acid (DTTA-BuA) uses an amide functionalization to increase the total ligand acidity and attain efficient 4f/5f differentiation in low pH conditions. The amide, when located on the diethylenetriamine platform containing four acetate pendant arms maintains the octadentate coordination sphere for all investigated trivalent f-elements. This compact coordination environment inhibits the protonation of LnL- complexes, as indicated by lower K111 constants relative to the corresponding protonation site of the free ligand. For actinide ions, the enhanced stability of AnL- lowers the K111 for americium and curium beyond the aptitude of potentiometric detection. Density functional theory computations indicate the difference in the back-donation ability of Am3+ and Eu3+ f-orbitals is mainly responsible for stronger proton affinity of EuL- compared to AML-. The measured stability constants for the formation of AML- and CML- complexes are consistently higher, relative to ML- complexes with lanthanides of similar charge density. When compared with the conventional aminopolycarboxylate diethylenetriamine pentaacetic acid (DTPA), the modified DTTA-BuA complexant features higher ligand acidity and the important An3+/Ln3+ differentiation when deployed on a liquid-liquid distribution platform.

Original languageEnglish
Pages (from-to)1092-1105
Number of pages14
JournalDalton Transactions
Volume47
Issue number4
DOIs
StatePublished - 2018

Funding

The experimental work conducted by TSG, CRH and PRZ at the Idaho National Laboratory was supported by the U.S. Department of Energy, Office of Nuclear Energy, DOE Idaho Operations Office, under contract DE-AC07-05ID14517. The synthetic work by SJ-P and computational studies by VSB and ASI were supported by the Fuel Cycle Research and Development Program, Office of Nuclear Energy, U.S. Department of Energy. DFT calculations used resources of the National Energy Research Scientific Computing Center supported by the Office of Science of the U.S. Department of Energy under contract No. DE-AC02-05CH11231.

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