Issue 29, 2024

Shift of the reduction potential of nickel(ii) Schiff base complexes in the presence of redox innocent metal ions

Abstract

With the objective of gaining insight into the modulation of the reduction potential of the Ni(II/I) couple, we have synthesized two mononuclear nickel(II) complexes, NiLen (H2Len = N,N′-bis(3-methoxysalicylidene)-1,2-diamino-2-methylpropane) and NiLpn (H2Lpn = N,N′-bis(3-methoxysalicylidene)-1,3-diamino-2,2-dimethylpropane) of two N2O4 donor ligands and recorded their cyclic voltammograms. Both the nickel complexes show reversible reduction processes for the Ni(II/I) couple in acetonitrile solution but the reduction potential of NiLpn (E1/2 = −1.883 V) is 188 mV more positive than that of NiLen (E1/2 = −2.071 V). In the presence of redox inactive metal ions (Li+, Na+, K+, Mg2+, Ca2+ and Ba2+), the reduction potentials are shifted by 49–331 mV and 99–435 mV towards positive values compared to NiLen and NiLpn, respectively. The shift increases with the decrease of the pKa of the respective aqua-complexes of the metal ion but is poorly co-linear; however, better linearity is found when the shift of the mono- and bi-positive metal ion aqua complexes is plotted separately. Spectrophotometric titrations of these two nickel complexes with the guest metal ions in acetonitrile showed a well-anchored isosbestic point in all cases, confirming the adduct formation of NiLen and NiLpn with the metal ions. Structural analysis of single crystals, [(NiLen)Li(H2O)2]·ClO4 (1), [(NiLpn)Li(H2O)]·ClO4 (2), [(NiLpn)2Na]·BF4 (3) and [(NiLpn)2Ba(H2O)(ClO4)]·ClO4 (4), also corroborates the heterometallic adduct formation. The orbital energies of the optimised heterometallic adducts from which electron transfers originated were calculated in order to explain the observed reduction process. A strong linear connection between the calculated orbital energies and the experimental E1/2 values was observed. According to MEP and 2D vector field plots, the largest shift for divalent metal ions is most likely caused by the local electric field that they impose in addition to Lewis acidity.

Graphical abstract: Shift of the reduction potential of nickel(ii) Schiff base complexes in the presence of redox innocent metal ions

Supplementary files

Article information

Article type
Paper
Submitted
01 Apr 2024
Accepted
28 Jun 2024
First published
29 Jun 2024

Dalton Trans., 2024,53, 12316-12330

Shift of the reduction potential of nickel(II) Schiff base complexes in the presence of redox innocent metal ions

P. Bhunia, R. M. Gomila, A. Frontera and A. Ghosh, Dalton Trans., 2024, 53, 12316 DOI: 10.1039/D4DT00953C

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