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  • Research From National Academy Of Science Provide New Insights Into

    RESEARCH FROM NATIONAL ACADEMY OF SCIENCE PROVIDE NEW INSIGHTS INTO CHEMICAL KINETICS

    Science Letter
    February 2, 2010

    "Absolute rate constants (k(eff)) for the chemical reactions of
    Cu(II)(2)(3,5-di-iso-propylsalicylate)(4)(H2O)( 3),
    Cu(II)(2)(3,5-di-tert-butylsalicylate)(4),
    Cu( II)2(3,5-di-tert-butylsalicylate)(4)(H2O)(4),
    Cu(I I)(2)(3,5-dimethylsalicylate)(4)(H2O)(3),
    Cu(II)(2 )(3-ethylsalicylate)(4)(H2O),
    Cu(II)(2)(3-phenylsa licylate)(4), and
    Cu(II)(3,5-di-iso-propylsalicylate)(2)(pyridin e)(2) with
    tert-butylperoxyl radical were determined using kinetic electron
    paramagnetic resonance measurements in 10% toluene in the hexane
    medium at temperatures ranging from -63 degrees C to 2 degrees C.

    These antioxidant (AO) chelates were ranked by their reactivity as
    follows: 2,6-di-tert-butyl-4-methylphenol >>
    Cu(II)2(3,5-di-tert-butylsalicylate)(4) congruent to
    Cu(II)(2)(3-phenylsalicylate)(4) >
    Cu(II)(2)(3,5-di-iso-propylsalicylate)(4)(H2O )(3) congruent to
    Cu(II)(2)(3,5-di-tert-butylsalicylate)(4)(H2O)( 4) congruent to
    Cu(II)(2)(3,5-dimethylsalicylate)(4)(H2O)3 >
    Cu(II)(2)(3-ethylsalicylate)(4)(H2O) >>
    Cu(II)(3,5-di-iso-propylsalicylate)(2)(py ridine)(2) at 20 degrees C.

    Differential pulse voltammetry was used to determine redox behavior
    of these chelates in CH2Cl2. Two types of salicylic OH groups were
    detected in these Cu(II) salicylates, characterized by the presence
    or absence of AO reactivity," scientists in Yerevan, Armenia report
    (see also Chemical Kinetics).

    "One of them was coordinate covalently bonded to Cu(II) via the
    oxygen atoms of the salicylic OH groups, displaying oxidation peak
    potentials in the range from +650 to 970 mV versus Ag/Ag+. The second
    type was intramolecularly hydrogen bonded to carboxylate oxygens,
    with an oxidation peak potential in the range from +1100 to 1200 mV
    versus Ag/Ag+. It was concluded that non-hydrogen-bonded salicylic
    OH groups are responsible for the antiperoxyl radical reactivity of
    these chelates, while neither Cu(II) nor salicylate ligands displayed
    reactivity with peroxyl radical, It has been established in this
    research that axially bonded electron pair donors such as pyridine
    and water decrease H-donating reactivity of Cu(II) salicylates by
    promoting the formation of intramolecular hydrogen bonding between
    the salicylic OH hydrogen atoms and carboxylate oxygen atoms in the
    salicylic ligands," wrote L.A. Tavadyan and colleagues, National
    Academy of Science.

    The researchers concluded: "Dependences of log k(eff) at 20 degrees C
    and the anodicoxidation potential (E-pa) for the salicylic OH group on
    the difference between symmetric and asymmetric stretching frequencies
    of carboxylate groups (in Fourier transform infrared spectra) for
    the substituted Cu(II) salicylates were determined."

    Tavadyan and colleagues published their study in International Journal
    of Chemical Kinetics (Reactivity of Substituted Copper(II) Salicylates
    with tert-Butylperoxyl Radical: Structure-Reactivity Relationships.

    International Journal of Chemical Kinetics, UNKNOWN DATE;42(1):56-67).

    For more information, contact L.A. Tavadyan, National Academy Science,
    Institute Chemical Physics, 5-2 Sevak St., Yerevan 0014, Armenia.

    Publisher contact information for the International Journal of
    Chemical Kinetics is: John Wiley & Sons Inc., 111 River St., Hoboken,
    NJ 07030, USA.
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