Homolytic versus Heterolytic Dissociation of Alkalimetal Halides: The Effect of Microsolvation

Osuna, Sílvia; Swart, Marcel; Baerends, Evert Jan; Bickelhaupt, F. Matthias; Solà, Miquel

doi:10.1002/cphc.200900480

Cited by 15 publications

(17 citation statements)

References 89 publications

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“…[46,47] Solvent effects were taken into account in all geometry optimization and energy calculations by using the COSMO model, which was shown to perform well for solvation processes. [48][49][50][51][52] The solvent used was the same as in the experiments, that is, dimethyl sulfoxide (DMSO).…”

Section: Computational Detailsmentioning

confidence: 99%

On the Mechanism of Action of Fullerene Derivatives in Superoxide Dismutation

Osuna

Swart

Solà

2010

Chemistry A European J

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We have studied the mechanism of the antioxidant activity of C(60) derivatives at the BP86/TZP level with inclusion of solvent effects (DMSO) by using the COSMO approach. The reaction studied here involves degradation of the biologically relevant superoxide radical (O(2)(*-)), which is linked to tissue damage in several human disorders. Several fullerene derivatives have experimentally been shown to be protective in cell culture and animal models of injury, but precisely how these compounds protect biological systems is still unknown. We have investigated the activity of tris-malonyl C(60) (also called C(3)), which efficiently removes the superoxide anion with an activity in the range of several biologically effective, metal-containing superoxide dismutase mimetics. The antioxidant properties of C(3) are attributed to the high affinity of C(60) to accept electrons. Our results show that once the superoxide radical is in contact with the surface of C(3), its unpaired electron is transferred to the fullerene. This process, which converts the damaging O(2)(*-) to neutral oxygen O(2), is the rate-determining step of the reaction. Afterwards, another superoxide radical reacts with C(3)(*-) to form hydrogen peroxide and in the process takes up the additional electron that was transferred in the first step. The overall process is clearly exothermic and, in general, involves reaction steps with relatively low activation barriers. The capability of C(3) to degrade a highly reactive oxygen species that is linked to several human diseases is of immediate interest for future applications in the field of biology and medicine.

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Section: Computational Detailsmentioning

confidence: 99%

On the Mechanism of Action of Fullerene Derivatives in Superoxide Dismutation

Osuna

Swart

Solà

2010

Chemistry A European J

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“…Comparison of silver to sodium and potassium shows stronger bond energies and, hence, higher levels of covalency in the silver monomers. These bond energies may weaken when explicitly solvated as indicated previously [7]. Even so, the present works suggests that the greatest indicator for the difference between these singly-charged cations is that the sodium and potassium bond strengths to the anions discussed in Table 3 are weakest in the chloride salts where they are strongest for the silver salts.…”

Section: Discussionmentioning

confidence: 79%

“…There exist several explanations within general chemistry texts or online discussion boards as to why certain ionic compounds are soluble in water and why others are not in contradiction to the general solubility rules. Work by Osuna and coworkers [7] indicates that stepwise explicit microsolvation leads to favorable charge separations for the constituent atoms in alkali-halide diatomics. As a result, the standard ions are favored for bond cleavage in water, whereas the neutral atoms are favored as dissociated products in the gas phase.…”

Section: Introductionmentioning

confidence: 99%

Factors affecting the solubility of ionic compounds

Hurst

Fortenberry

2015

Computational and Theoretical Chemistry

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“…This energy was greatly diminished when including an implicit aqueous solvent in the calculation, since the charged species are greatly stabilized by the medium [38].…”

Section: Heterolytic Bond Dissociation Protocolmentioning

confidence: 99%