Chemical Physics Impact (Dec 2022)

Theoretical study of the heterometal complexation of Pr(III) with L-isoleucine in the presence/absence of Mg(II) in solution: 4f-4f transition spectra as probe

  • Chubazenba Imsong,
  • Mhasiriekho Ziekhrü,
  • Zevivonü Thakro,
  • Juliana Sanchu,
  • Mayanglambam Indira Devi

Journal volume & issue
Vol. 5
p. 100108

Abstract

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The Judd-Ofelt intensity Tλ (λ=2, 4, 6), oscillator strength (P) and other energy interaction parameters like Slater Condon (FK), Racah (EK), Lande (ξ4f), nephelauxetic ratio (β), bonding (b1/2), percent covalency (δ) were evaluated to study the mode of interaction of Pr(III) with L-isoleucine in the presence/ absence of Mg(II) in different aquated organic solvents (DMF, dioxane, methanol and acetonitrile) and also at pH levels 2, 4, 6, using the 4f-4f transition spectra as a probe. The variation in values of both intensity and energy interaction parameters could reveal the formation of a bond among Pr(III), L-isoleucine, and Mg(II). Multimetal complexation among Pr(III) and the ligands were found to be most favourable in DMF solvent and at pH 6.