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Alkoxylated compounds

As a general rule, the addition of ethylene oxide to a resin backbone will tend to increase the water solubility of the compound. The addition of propylene oxide or butylene oxide to the resin will tend to increase the hydrocarbon solubility of the compound. Often, the dehazer or demulsifier can be made to perform selectively in oil-water systems by adding both ethylene oxide and propylene oxide to the same molecule. Performance and solubility of the alkoxylated compound can then be finely tuned by closely controlling the amount and order of epoxide addition. A random EO-PO based fuel demulsifier is shown in FIGURE 6-6. [Pg.146]

Selective dealkylation of aromatic alkoxylated compounds Selective de-ethylation of 2-ethoxyanisole is achieved by use of KO Bu as the reagent in the presence of 18-crown-6 as the phase-transfer agent (PTA). With addition of ethylene glycol (E.G.), the selectivity is reversed and demethylation occurs (Eq. (61), Table 4.18). Although involvement of microwaves is favorable in both examples, the second reaction was shown to be more strongly accelerated than the first [147]. [Pg.185]

As hinted by the temperature of the pyrolysis shown in Table 1, Atwell and Weyenberg concluded that the more highly alkoxylated compounds have less thermal stability towards degradation/ They also studied the thermolysis of a variety of other hetero-substituted disilanes and determined that the thermal stabilities in terms of the effect of substituent type follow the order/ ... [Pg.316]

Toxicity. While many new materials are added to the adhesive chemist s arsenal, some are being removed as well. Compounds which cause health and environmental concern include ethylenimine, methylene-fcw(o-chloroan-iline) (MOCA), hexamethylene diisocyanate, formaldehyde. Some systems are no longer in use in others, modifications have been made. Thus radiation-curing technology is replacing some types of multifunctional acrylate monomers with alkoxylated compounds, because the latter are less irritating and less toxic. An example is trimethylolpropane triethoxy triacrylate. [Pg.18]

Chem. Descrip. Blend of alkoxylated compounds and hydrophobic silica in emulsion form... [Pg.52]

The versatility of lithium aluminum hydride permits synthesis of alkyl, alkenyl, and arylsilanes. Silanes containing functional groups, such as chloro, amino, and alkoxyl in the organic substituents, can also be prepared. Mixed compounds containing both SiCl and SiH cannot be prepared from organopolyhalosilanes using lithium aluminum hydride. Reduction is invariably complete. [Pg.29]

The partially alkoxylated chlorotitanates, (RO) TiCl, can be prepared in high purity by reaction of TiCl with an organosilane ester, Si(OR)4 (see Silicon compounds). The degree of esterification of the titanium can be controlled by the amount of silane ester used. When is 3 or 4, the addition of the appropriate alcohol and an amine receptor is required (5). [Pg.138]

Alkoxyl tion. The nucleophilic replacement of an aromatic halogen atom by an alkoxy group is an important process, especially for production of methoxy-containing iatermediates. Alkoxylation is preferred to alkylation of the phenol wherever possible, and typically iavolves the iateraction of a chloro compound, activated by a nitro group, with the appropriate alcohol ia the presence of alkaU. Careful control of alkaU concentration and temperature are essential, and formation of by-product azoxy compounds is avoided by passiag air through the reaction mixture (21). [Pg.293]

Aromatic ethers and furans undergo alkoxylation by addition upon electrolysis in an alcohol containing a suitable electrolyte.Other compounds such as aromatic hydrocarbons, alkenes, A -alkyl amides, and ethers lead to alkoxylated products by substitution. Two mechanisms for these electrochemical alkoxylations are currently discussed. The first one consists of direct oxidation of the substrate to give the radical cation which reacts with the alcohol, followed by reoxidation of the intermediate radical and either alcoholysis or elimination of a proton to the final product. In the second mechanism the primary step is the oxidation of the alcoholate to give an alkoxyl radical which then reacts with the substrate, the consequent steps then being the same as above. The formation of quinone acetals in particular seems to proceed via the second mechanism. ... [Pg.94]

This numbering system is especially useful since all the reactivity characteristics summarized above can be recognized just from the name of the compound. Resonance activation of the leaving group (Le) for alkoxylation or alkylamination has the following observed characteristics (Section IV, A, 2) ... [Pg.326]

Phthalic anhydride also shows the ability to inhibit thermal destruction of polyolefins [21]. Among the organometallic compounds may be quoted organotin compounds R2Sr(OR )2, where R2 means alkyl, aryl, or cycloalkyl OR means alkoxyl, acyl, or R2Sn(CH2COORi)2, where Rj—Ci—Cm means alkyl, allyl, or benzyl Ro represents chloro-, mono-, or triorga-notin mercaptans [22,23]. [Pg.83]

The reaction proceeds with high regioselectivity for oxidation at the less substituted a-carbon. Methanol is commonly used as the solvent, although higher alcohols are also used for some detailed experimental procedures refer to the literature60,61. Some examples of compounds prepared via electrochemical alkoxylation are ... [Pg.814]

Ether carboxylates are used not only in powdered detergents but in liquid laundry detergents for their hard water stability, lime soap dispersibility, and electrolyte stability they improve the suspension stability and rheology of the electrolyte builder [130,131]. Formulations based particularly on lauryl ether carboxylate + 4.5 EO combined with fatty acid salt and other anionic surfactants are described [132], sometimes in combination with quaternary compounds as softeners [133,163]. Ether carboxylates show improved cleaning properties as suds-controlling agents in formulations with ethoxylated alkylphenol or fatty alcohol, alkyl phosphate esters or alkoxylate phosphate esters, and water-soluble builders [134]. [Pg.339]

The alkoxyl group OR is not a leaving group, so these compounds must be converted to the conjugate acids before they can be hydrolyzed. Although 100% sulfuric acid and other concentrated strong acids readily cleave simple ethers, the only acids used preparatively for this purpose are HBr and HI (10-71). However, acetals, ketals, and ortho esters are easily cleaved by dilute acids. These compounds are... [Pg.465]

The trapping of alkyl, alkoxyl and alkylthiyl radicals by trivalent phosphorus compounds, followed by either a-scission or p-scission of the ensuing phosphoranyl radical, is a powerful tool for preparation of new trivalent or pen-tavalent phosphorus compounds [59]. However, the products of these reactions strongly depend on the BDE of the bonds, which are either formed or cleaved. For example, the addition of phenyl radicals on a three-coordinate phosphorus molecule occurs irreversibly, while that of dimethylaminyl (Me2N ) or methyl radicals is reversible, the amount of subsequent P-scission (formation of compound C) depending on the nature of Z and R (Scheme 25). For tertiary alkyl radicals and stabilized alkyl radicals no addition is observed (Scheme 25) [63]. [Pg.59]

Tertiary alkoxyl radicals are unstable and decomposed into the carbonyl compound and the alkyl radical ... [Pg.102]

The traditional chain oxidation with chain propagation via the reaction RO/ + RH occurs at a sufficiently elevated temperature when chain propagation is more rapid than chain termination (see earlier discussion). The main molecular product of this reaction is hydroperoxide. When tertiary peroxyl radicals react more rapidly in the reaction R02 + R02 with formation of alkoxyl radicals than in the reaction R02 + RH, the mechanism of oxidation changes. Alkoxyl radicals are very reactive. They react with parent hydrocarbon and alcohols formed as primary products of hydrocarbon chain oxidation. As we see, alkoxyl radicals decompose with production of carbonyl compounds. The activation energy of their decomposition is higher than the reaction with hydrocarbons (see earlier discussion). As a result, heating of the system leads to conditions when the alkoxyl radical decomposition occurs more rapidly than the abstraction of the hydrogen atom from the hydrocarbon. The new chain mechanism of the hydrocarbon oxidation occurs under such conditions, with chain... [Pg.102]

The formed alkoxyl macroradical is very unstable and decomposes with the formation of three carbonyl compounds. [Pg.481]

See other pages where Alkoxylated compounds is mentioned: [Pg.562]    [Pg.88]    [Pg.1102]    [Pg.487]    [Pg.216]    [Pg.562]    [Pg.88]    [Pg.1102]    [Pg.487]    [Pg.216]    [Pg.82]    [Pg.373]    [Pg.144]    [Pg.154]    [Pg.48]    [Pg.157]    [Pg.306]    [Pg.322]    [Pg.367]    [Pg.115]    [Pg.401]    [Pg.146]    [Pg.1010]    [Pg.205]    [Pg.775]    [Pg.146]    [Pg.303]    [Pg.285]    [Pg.5]    [Pg.20]    [Pg.105]   
See also in sourсe #XX -- [ Pg.146 ]



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Alkoxyl

Selective dealkylation of aromatic alkoxylated compounds

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