Results in Chemistry (Jan 2023)

Synthesis, crystal structure elucidation, DNA-binding and micellization behavior of copper(II) carboxylate complexes

  • Muhammad Iqbal,
  • Najeeb Ullah,
  • Muhammad A. Haleem,
  • Saqib Ali,
  • Muhammad N. Tahir,
  • Mahboob-ur-Rehman

Journal volume & issue
Vol. 5
p. 100700

Abstract

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Three new oxygen bridged binuclear and mononuclear copper(II) complexes having general formulae [L2Cu(2,2′-bipyridine)2CuL2] (A), [L′2Cu(2,2′-bipyridine)H2O] (B), [L″2Cu(2,2′-bipyridine)2CuL″2] (C) where L = ortho-nitrophenyl acetate, L′ = para-methoxyphenyl acetate and L″ = para-bromophenyl acetate have been prepared and characterized spectroscopically as well as structurally. The geometry around each Cu(II) ion was found square pyramidal in all the complexes. FT-IR data of the complexes were in agreement with that of the single crystal XRD. Electronic absorption spectra indicated broad absorption bands with λmax = 671, 715 and 700 nm typical of Cu2+ with 2B1g as ground state in A-C, respectively. Crystalline nature of the complexes was ascertained from its powder XRD spectra which showed several peaks in 2θ range 5–30. Electrochemistry yielded two redox pairs conforming to irreversible Cu(III)/Cu(II) and Cu(II)/Cu(I) processes typical of complexes with Cu2+ redox centers. Complex-surfactant interactions were studied via conductometry and absorption spectrophotometry. DNA binding abilities of complexes A-C were studied via absorption spectrophotometry, cyclic voltammetry, spectrofluorometry and viscosity measurement. The former three techniques yielded excellent intrinsic binding constant values for complexes. The excellent DNA-binding potency heralds the biological importance of the synthesized complexes.

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