• Sudhir N Limaye

      Articles written in Journal of Chemical Sciences

    • Electronic spectral studies on rare earth doped pseudogarnets

      Rashmi Singhai Sudhir N Limaye M C Saxena

      More Details Abstract Fulltext PDF

      Spectral parameters viz. oscillator strengths (P), Judd-Ofelt parameters (τλ), inter-electronic repulsion (Racah)∂Ek parameters (IERP) and nephelauxetic ratio (δE3/δE1) have been determined using aqueous solutions of representative lanthanide (rare earth) (III) ions, Pr(III), Nd(III), Sm(III), Eu(III), and Er(III) and rare earth-doped concentrated (∼ 1.0 M) solutions of pseudogarnets sodiumm-silicate, sodium molybdate and sodiumm-vanadate. These parameters have been studied as a function of (i) symmetry around the Ln(III) ions, and (ii) matrix environment due to different pseudogarnets.

      The electronic transitions for various Ln(III) ions and changes in their positions due to corresponding changes in matrix environment are observed to show red shift. The oscillator strength values increase significantly in the sequence aqua <MoO42−<VO3<SiO32−. The τλ values are found to lie in the orderτ6>τ4>τ2. The∂Ek and∂E3/∂E1 values are observed to lie in the theoretically calculated ranges. The nature of dopant-matrix interaction appears to change from ionic to ionocovalent on going across the Ln(III) series.

    • Ground termL andJ quantum number profiles of the oscillator strengths (fJO) andpH values of some lanthanoids in aminopolycarboxylate ligand environments

      Puspanjali Rout Rashmi Singhai Sudhir N Limaye M C Saxena

      More Details Abstract Fulltext PDF

      Electronic spectral studies of some lanthanoids [(viz. Pr(III), Nd(III), Sm(III), Eu(III), Dy(III), Er(III) and Tm(III)] in aminopolycarboxylate (viz. IMDA, NTA, HEDTA, EDTA, CDTA and DTPA) environment have been undertaken with a view to evaluate the oscillator strengths (fJO), Judd-Ofelt parameters (τλ), inter-electronic repulsion Racah parameters (∂Ek) and nephelauxetic ratios (∂E3/∂E1). The parameters have been evaluated for the entirepH range (pH 2–9) with intervals of 0.5 in order to study the dependence of oscillator strengths onpH values. The extent of covalency (via parameterτ2) and symmetry (via parametersτ4 andτ6) in the metal-ligand interaction have been estimated with the help of τλ parameters. The values of oscillator strengths and Judd-Ofelt parameters have been discussed in the light of coordination number of lanthanoid metal ions, denticity and basicity of the ligands. The metal-ligand bonding pattern has been studied in the light of changes in Racah parameters and the nephelauxetic ratio. The oscillator strength values for some specific hypersensitive transitions and for the transition whereUλ values are significantly large have been studied as a function of ground termL andJ quantum numbers of the lanthanoids.

  • Journal of Chemical Sciences | News

© 2021-2022 Indian Academy of Sciences, Bengaluru.