The 4f-4f transition spectra for the interaction of L-valine with praseodymium(III) in aqueous organic
solvents (50% v/v) of CH3CN, DMF, CH3OH and C4H8O2 is investigated. The variation in the
theoretically computed values of the absorption spectral parameters viz. energy interaction
parameters-spin-orbit interaction (ξ4f), Slater-Condon (Fk), nephelauxetic ratio (β), Racah energy (Ek),
bonding parameter (b1/2) and percentage covalency (δ) explained the nature of complexation. The
values of evaluated intensity parameters viz. oscillator strengths (P) and Judd-Ofelt parameters (Ωt) (t
= 2, 4, 6) were analyzed to see the possibility of outer and inner sphere coordination of Pr(III) with
L-valine. Further, reaction pathways for Pr(III) with L-valine and consequently its thermodynamic
parameters have been evaluated through 4f-4f transition spectra in the DMF solvent.