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Reactivity with ethanol

Nada H, Oikawa K, Ohya-Nishiguchi H, Kamada H. Efficient hydroxyl radical production and their reactivity with ethanol in the presence of photoexcited semiconductors. Bull Chem Soc Jpn 1994 67 2031-2037. [Pg.120]

Some less reactive tertiary amines can be mixed with an excess of methyl toluene-/)-sulphonate, m.p. 28 , and the mixture (without a solvent) heated to a much higher temperature. The mixture is allowed to cool, but before solidification occurs, it is thoroughly stirred with ether to extract unused sulphonate, and the insoluble quaternary metho-toluene-/)-sulphonate may then crystallise. If ciystallisation does not occur, dissolve this residue in ethanol and treat one portion with ethanolic picric acid (to precipitate the methopicrate) and another portion with cold concentrated ethanolic sodium iodide (to precipitate the methiodide). (M.ps. of the siilphon.ates, pp. 553 -554.)... [Pg.378]

The rearrangement discovered by Kolosova et al. probably involves such reactivit (159). This reaction provides a good preparative method for various 5-amino-methylthiazoles (Scheme 43). No mechanism is proposed in the report, and it is not easy to understand how the C-5 enamine-like position competes with the very nucleophilic thiocarbonyl group of the formed A-4-thiazoline-2-thione. An alternative mechanism could start with ethanol addition at C-2. leading to the A-4-thiazoline (90) (Scheme 44). In this intermediate, C-5 nucleophilic reactivity would be favored bv the true enaminic structure. After alkylation on C-5,... [Pg.400]

In a study directed to the analysis of the role of Fe and the generation of H2O2 in Escherichia coli (McCormick et al. 1998), hydroxyl radicals were specihcally trapped by reaction with ethanol to give the a-hydroxyethyl radical. This formed a stable adduct with a-(4-pyridyl-l-oxide)-iV-t-butyl nitroxide that was not formed either by superoxide or hydroxyl radicals. The role of redox-reactive iron is to use EPR to analyze the EPR-detectable ascorbyl radicals. [Pg.289]

In acidic media, the reactivity of ethanol on Au electrodes is much lower than in alkaline media. The main product of the oxidation of ethanol on Au in an acidic electrolyte was found to be acetaldehyde, with small amounts of acetic acid [Tremiliosi-FiUio et al., 1998]. The different reactivities and the product distributions in different media were explained by considering the interactions between the active sites on Au, ethanol, and active oxygen species absorbed on or near the electrode surface. In acidic media, surface hydroxide concentrations are low, leading to relatively slow dehydrogenation of ethanol to form acetaldehyde as the main oxidation pathway. In contrast, in alkaline media, ethanol, adsorbed as an ethoxy species, reacts with a surface hydroxide, forming adsorbed acetate, leading to acetate (acetic acid) as the main reaction product. [Pg.195]

Where reactivity is low, as for example with non-activatcd haloarenes, soliddiquid conditions are to be preferred over liquid liquid conditions and better yields are frequently obtained when TDA-1 is used as the catalyst instead of a quaternary ammonium salt [28]. Although not activated to nucleophilic attack, 2-chlorophenol reacts with ethanol under solid liquid conditions with microwave irradiation in the presence of benzyltrimethylammonium chloride to produce the ether in 70% yield [44], It is possible that the procedure has potential for further exploitation. [Pg.31]

In the Claisen-Schmidt condensation at the same temperature and with ethanol solvent present, lower yields of a-enones were observed. The best yield corresponds to condensation of the most reactive furfural with acetophenone, giving 95% a-enone after 1 h in a batch reactor. A comparison of the results characterizing the two reactions led to the conclusion that the W-H reaction provides the more efficient and selective synthesis of a-enones however, the CS condensation provides the more economic approach. [Pg.293]

In 1993, another immunoassay for the detection of monensin was developed but, unfortunately, was never applied to biological material (91). Quite recently a competitive ELISA and a compatible extraction procedure suitable for screening monensin in poultry liver samples was described (92). In this assay, a polyclonal antiserum raised against a monensin-transferrin conjugate and prepared via an acid anhydride intermediate (93) was used. Significant cross-reactivity with other polyethers commonly used by the broiler industry, such as maduramicin, lasalocid, salinomycin, and narasin, was not found. A detection limit of 3 ppb could be readily attained when liver samples were submitted to extraction with aqueous acetonitrile, partitioning between aqueous sodium hydroxide solution and a hexane-diethyl either mixture, evaporation of the organic phase, and reconstitution in ethanol/sodium acetate solution. [Pg.851]

Perfluorocyclopropene reacts readily with sodium methoxide at low temperature [22] (equation 19) Slow addition of sodium methoxide to 1,2 dichloro-3,3-di fluorocyclopropane yields initially l-chloro-2-methoxy-3,3-difluorocyclopro pane Further addition of methanol produces probably a ketal Opening of the cyclopropane ring gives an ortho ester that undergoes facile hydrolysis during the workup to form (Z)-methyl 2-fluoro-3-chloroacrylate [23] (equation 20) A per-fluorocyclobutene dimer is also very reactive and undergoes an easy SN2 displacement on treatment with ethanol [24] (equation 21)... [Pg.450]

Linnoila, M. et al., Effects of adinazolam and diazepam, alone and in combination with ethanol, on psychomotor and cognitive performance and on autonomic nervous system reactivity in healthy volunteers, Eur. J. Clin. Phatmacol., 38, 371, 1990. [Pg.90]

A somewhat similar oxidation of terminal alkenes to methyl ketone and alcohol by 02 in the presence of Co(salMDPT) [salMDPT = bis(salicylideneiminopropyl)methylamine] and in ethanol solvent has recently been reported by Drago and coworkers (equation 244).560 Only terminal alkenes were found to be reactive with this catalytic system. The reaction is alcohol dependent and occurs in ethanol and methanol but not in t-butyl or isopropyl alcohols. The alcohol is concomitantly oxidized during the reaction, and may act as a coreducing agent and/or favor the formation of cobalt hydride. This oxidation might occur according to the mechanism of equation (243). [Pg.387]

The synthesis of 2,2-dimethylsuccinic acid (Expt 5.135) provides a further variant of the synthetic utility of the Knoevenagel-Michael reaction sequence. Ketones (e.g. acetone) do not readily undergo Knoevenagel reactions with malonic esters, but will condense readily in the presence of secondary amines with the more reactive ethyl cyanoacetate to give an a, /f-unsaturated cyanoester (e.g. 15). When treated with ethanolic potassium cyanide the cyanoester (15) undergoes addition of cyanide ion in the Michael manner to give a dicyanoester (16) which on hydrolysis and decarboxylation affords 2,2-dimethylsuccinic acid. [Pg.682]

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See also in sourсe #XX -- [ Pg.398 ]



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