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Peroxynitrate

Peroxyacids Peroxydisulphuric acid Peroxynitric acid Peroxy ditungstic acid... [Pg.238]

The plot of In A, versus time gives k = 3.76 s 1. The pattern may seem to suggest that the reaction occurs with fast formation of the peroxynitrous acid intermediate (k = 3.76 s-1) and slower consumption of it (k = 0.0854 s-1). This is not necessarily so, however, as will be considered in Section 4.2. Rather than committing oneself as to... [Pg.74]

Attention has been given to possible adverse effects of incorporating tert-butyl methyl ether into antomobile fuels. tert-Butyl formate is an established product of photolysis, and it has been shown that photolysis in the presence of NO can produce the relatively stable tert-butoxyformyl peroxynitrate. This has a stability comparable to that of peroxy-acetyl nitrate, and may therefore increase the potential for disseminating NO (Kirchner et al. 1997). [Pg.14]

Kirchner F, LP Thuner, I Barnes, KH Becker, B Donner, F Zabel (1997) Thermal lifetimes of peroxynitrates occurring in the atmospheric degradation of oxygenated fuel additives. Environ Sci Technol 31 1801-1804. [Pg.43]

When large quantities of oxygen are introduced into N204/alkene or cycloalkene mixtures, detonations occur at a temperature starting at 0 C. These detonations have been explained by the formation of peroxynitrates and nitro-peroxynitrates, which are unstable ... [Pg.243]

Kikugawa, K., Hiramoto, K., Tomiyama, S., and Asano, Y. 1997. P-Carotene effectively scavenges toxic nitrogen oxides Nitrogen dioxide and peroxynitrous acid. FEBS Lett. 404 175-178. [Pg.306]

At physiological pH, ONOO- protonates to peroxynitrous acid (ONOOH) which disappears within a few seconds, the end product being largely nitrate. The chemistry of peroxynitrite/peroxynitrous acid is extremely complex, although addition of ONOO to cells and tissues leads to oxidation and nitration of proteins, DNA and lipids with a reactivity that is comparable to that of hydroxyl radicals. [Pg.273]

In the last 10 to 15 years, many experimental and theoretical studies have been dedicated to the study of peroxynitrite reactions. Free radical and non-free radical mechanisms of peroxynitrite action have been proposed, which were discussed in numerous studies (see for example, Refs. [103-110]). In accord with non-radical mechanism an activated form of peroxynitrous acid is formed in the reaction of superoxide with nitric oxide, which is able to react with biomolecules without the decomposition to HO and N02 radicals. [Pg.701]

It should be noted that Reaction (4) is not a one-stage process.) Both free radical N02 and highly reactive peroxynitrite are the initiators of lipid peroxidation although the elementary stages of initiation by these compounds are not fully understood. (Crow et al. [45] suggested that trans-ONOO is protonated into trans peroxynitrous acid, which is isomerized into the unstable cis form. The latter is easily decomposed to form hydroxyl radical.) Another possible mechanism of prooxidant activity of nitric oxide is the modification of unsaturated fatty acids and lipids through the formation of active nitrated lipid derivatives. [Pg.777]

The gas-phase stability of a variety of possible products—such as the olefin ozonide, peroxyformyl nitrate, and peroxynitric acid—is not known. [Pg.31]

Similarly, chain termination by RO, + NO2 could form organic peroxynitrates. These would probably be less toxic than PAN, but th could be present in comparable amounts. The formation of organic per-oxynitrites and peroxynitrates has been considered. p- but they have not been observed in smog. [Pg.39]

Pemitric (or peroxynitric) acid is an example of a compound that could be present in significant quantities. This proposal is very speculative, because there is no evidence of this compound in the gas phase, although there is evidence of some such species in solutions.The reaction of hydroperoxy radical with nitrogen dioxide is usually written... [Pg.39]

Peroxynitrous acid, which has an estimated lifetime of 1-3 s at neutral pH, has been studied through ab initio calculations that suggest that peroxynitrous acid, per-oxyformic acid, and dimethyldioxirane have, despite diverse 0—0 bond energies, similar activation energies for oxygen-atom transfer." The transition-state structures for the epoxidation of ethene and propene with peroxynitrous acid are symmetrical with equal or almost equal bond distances between the spiro oxygen and the carbons of the double bond. [Pg.229]

Irradiation of gaseous formaldehyde containing an excess of nitrogen dioxide over chlorine yielded ozone, carbon monoxide, nitrogen pentoxide, nitryl chloride, nitric and hydrochloric acids. Peroxynitric acid was the major photolysis product when chlorine concentration exceeded the nitrogen dioxide concentration (Hanst and Gay, 1977). Formaldehyde also reacts with NO3 in the atmosphere at a rate of 3.2 x 10 cmVmolecule-sec (Atkinson and Lloyd, 1984). [Pg.599]

Peroxyacyl nitrates, see Acetaldehyde, Butane, 2-Bntanone, 2,3-Dimethylbntane Peroxybenzoic acid, see Toluene Peroxynitric acid, see Formaldehyde Peroxypropionyl nitrate, see 2-Methylpentane, Pentane Phenanthrene, see Anthracene, Bis(2-ethylhexyl) phthalate, Naphthalene Phenanthrene-9,10-dione, see Phenanthrene 9,10-Phenanthrenequinone, see Phenanthrene 4-Phenanthroic acid, see Pyrene... [Pg.1538]

Despite a considerable literature on the various modes of reactions induced by peroxynitrite, the kinetic and mechanistic aspects of these transformations have been clarified only recently (Nonoyama et al. 1999). The authors give the following picture of the peroxynitrite chemical behavior. In alkaline solutions, peroxynitrite is a stable anionic species. At physiological pH, it is rapidly protonated to form peroxynitrous acid (ONOOH) ONOO -I- H ONOOH. [Pg.259]

Fontana, M., Pinnen, F., Lucente, G., and Pecci, L. (2002). Prevention of peroxynitrate-dependent damage by carnosine and related sulphonamide pseudopeptides. Cell. Mol. Life Sci. 59, 546-555. [Pg.138]

TABLE 2. Comparison of the calculated barriers (kcal mol ) for the oxidation of alkenes, dimethyl sulfide, trimethylamine and trimethylphosphine with peroxynitrous add, peroxyformic acid and dimethyldioxirane (DMDO)... [Pg.7]

Reactants Peroxynitrous acid (20.3) Peroxyformic acid (46.9) DMDO... [Pg.7]

The second proposal is a bit more imaginative and arises from the above arguments that 0—0 bond homolysis is much too slow to be involved in oxidations by peroxynitrate. Pryor and coworkers invoked the intermediacy of a metastable form of peroxynitrous acid (HO—ONO ) in equilibrium with its ground state. This so-called excited state of peroxynitrous acid has, to date, eluded detection or characterization by the experimental community. However, recent high-level theoretical calculations by Bach and his collaborators have presented plausible evidence for the intermediacy of such a shortlived species with a highly elongated 0—0 bond and have confirmed its involvement in the oxidation of hydrocarbons (see below). The discovery of this novel series of biologically important oxidants has fostered a new area of research in both the experimental and theoretical communities. In this chapter we will describe many of the more pertinent theoretical studies on both the physical properties and chemical reactivity of peroxynitrous acid. [Pg.8]


See other pages where Peroxynitrate is mentioned: [Pg.74]    [Pg.75]    [Pg.916]    [Pg.243]    [Pg.551]    [Pg.555]    [Pg.566]    [Pg.700]    [Pg.169]    [Pg.348]    [Pg.359]    [Pg.258]    [Pg.335]    [Pg.39]    [Pg.260]    [Pg.64]    [Pg.94]    [Pg.316]    [Pg.1]    [Pg.1]    [Pg.6]    [Pg.7]    [Pg.7]    [Pg.7]   
See also in sourсe #XX -- [ Pg.467 ]




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Bonds peroxynitrous acid homolysis

Conformation peroxynitrous acid

Dissociation, peroxynitrous acid

Epoxidation peroxynitrous acid

Ethylene peroxynitrous acid

Fluorocarbonyl peroxynitrate

Ground state properties, peroxynitrous acid

Homolysis peroxynitrous acid

Isomerization peroxynitrous acid

Metastable states, peroxynitrous acid

Methane peroxynitrous acid oxidation

Nucleophiles peroxynitrous oxidation

Other Peroxynitrates, and Alkyl Nitrates

Oxidation peroxynitrous acid

Oxygen atom transfer peroxynitrous acid

Peroxynitrates

Peroxynitrates

Peroxynitrates, synthesis

Peroxynitric acid

Peroxynitrous acid

Peroxynitrous acid bond dissociation energy

Peroxynitrous acid conformers

Peroxynitrous acid decomposition

Peroxynitrous acid dissociative pathways

Peroxynitrous acid formation

Peroxynitrous acid generation

Peroxynitrous acid oxidant

Peroxynitrous acid reactivity

Trifluoromethyl peroxynitrate

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