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Ketones nitroalkanes

Many of these reactions are reversible, and for the stronger nucleophiles they usually proceed the fastest. Typical examples are the addition of ammonia, amines, phosphines, and bisulfite. Alkaline conditions permit the addition of mercaptans, sulfides, ketones, nitroalkanes, and alcohols to acrylamide. Good examples of alcohol reactions are those involving polymeric alcohols such as poly(vinyl alcohol), cellulose, and starch. The alkaline conditions employed with these reactions result in partial hydrolysis of the amide, yielding mixed carbamojdethyl and carboxyethyl products. [Pg.133]

In extension, some retention index scales were proposed to mimic the Kovats index in GC. Alkanes, n-alkylbenzenes, alkan-2ones, alkylary] ketones, nitroalkanes, or polynuclear aromatic hydrocarbons were the advocated solutes. None of these scales is reliable, and observed indexes are not stable with variation in eluent composition, which precludes their use as a Kovats scale. [Pg.19]

Carboxylation Aluminum chloride. Sodium amalgaoL Sodium phenolate. o-Carboxylation of ketones, nitroalkanes Magnesiom methylcarbonate. [Pg.1386]

The original Mannich reaction consisted in the reaction of a compound containing at least one active hydrogen atom (ketones, nitroalkanes, p-ketoesters, P-cyano acids etc.) with formaldehyde and primary or secondary amine or ammonia (in the form of its hydrochloride) to give products, p-aminoketone derivatives, known as mannich base (Scheme 153). ... [Pg.178]

The Mannich reaction between an aldehyde (usually formaldehyde) and a primary or secondary amine in the presence of a third substance having an active hydrogen, e.g. ketones, nitroalkanes, malonic esters, bears close similarity to the Leuekart reaction (equation 40). The net... [Pg.570]

Indeed, photoredox catalysis with Ru polypyridine complexes has emerged as a powerful tool for redox reactions including formation of carbon-carbon bonds based on oxidation of sp C-H bonds via single-electron-transfer (SET) processes. Results that are closely related to those shown in Schemes 33,34, and 35, where the carbon-carbon bond formation resulted from the benzyUc sp C-H oxidative activation in the presence of BuOOH, have been recently reported for the regioselective functionalization of tetrahydroisoquinolines with cyanide and a variety of nucleophiles arising from ketones, nitroalkanes, allyltrimethylsilane, silyl enol ethers, 1,3-dicarbonyl compounds under photocatalytic conditions [67-70] as illustrated in Scheme 62 [67]. Other applications of Ru(bipy)3Cl2 in photocatalytic cycUzation reactions involving carbon-carbon btmd formation have appeared [71, 72]. [Pg.232]

Simple ketones and esters are inert. On the other hand, nitroalkanes react smoothly in r-butyl alcohol as a solvent with butadiene, and their acidic hydrogens are displaced with the octadienyl group. From nitromethane, three products, 64, 65, and 66, are formed, accompanied by 3-substituted 1,7-octadiene as a minor product. Hydrogenation of 65 affords a fatty amine 67 which has a primary amino function at the center of the long linear chain[46,61]. [Pg.433]

Another method for improving the reactivity of nitro compounds is provided by the double deprotonadon of nitroalkanes. In this case, the reacdon with ketones affords fi-nitro alcohols in 4Q-6Q% yield CEq.d.lQi ... [Pg.37]

Proazaphosphao-ane, PrRNCH-,CH-j,N, is an efficient catalyst for the Henty reacdon, and arious ketones give nitro-aldols by the reacdon with nitromethane and other nitroalkanes fEq. [Pg.37]

Oxidadve cross-conphng reactions of alkylated derivatives of activated CH compounds, such as malonic esters, acetylacetone, cyanoacetates, and ceitain ketones, v/ithnitroalkanes promoted by silver nitrate or iodine lead to the formation of the nitroalkylated products. This is an alternative way of performing Spj l reactions using cr.-halo-nitroalkanes. [Pg.138]

The Henry reaction of ketones with nitroalkanes in the presence of etbylenediamine gives allylic nitro compounds, which give a,fi-imsanirated carbonyl compounds via the Nef reaction fEq. 6.30. ... [Pg.167]

Alttmina-supported KF is an effecdve reagent for Michael addidon of nitroalkanes to electron-deficient olefins. Subsequent cycloalkyladons afford cyclopropanes.However, the reacdo n of a,fi-ttnsantrated ketones v/ithnitroalkanesin the presence of KF-A1,0 in acetonitrile gives 4,5-dihydrofliranes fEq. 7.39. ... [Pg.191]

Although this method is aot a geaeral procedure, bemg specific for ct-nitroketoues, k has several merits to avoid the use of toxic reageuts such as organodn compounds Functionalized ketones have been prepared by this denitration reaction, in which functionalized nitroalkanes are used as alkyl anion synthons For example, 3-nitropropanal ethylene acetal can be used as synthon of the 3-oxo-propyl anion and 1,4-dicarbonyl compounds are prepared, as shovm In Eq 7 88... [Pg.212]

The anions derived from nitroalkanes, ketones, esters, and tutnles react with -dinittoben-ene to give the corresponding products, as shown in Eq 9 1" and Eq 9 2 ... [Pg.303]

In the presence of a catalytic amount of tetrabutylammonium fluoride, either freshly dried over molecular sieves22 or as the trihydrate16, silylnitronates 2 derived from primary nitroalkanes react readily at — 78 C or below, via their in situ generated nitronates. with aromatic and aliphatic aldehydes to give the silyl-protected (/J, S )-nitroaldol adducts 3 in excellent yield4,22-24-26,27. Silylnitronates, derived from secondary nitroalkanes. afford the adducts in 30 40% overall yield24. In contrast to the classical Henry reaction (vide supra), the addition of silylnitronates to aldehydes is irreversible. Ketones are unreaetive under such conditions. [Pg.631]

Other compounds with reactive methylene and methyl groups are completely analogous to the nitroalkanes. Compounds with ketonic carbonyl groups are the most important. Their simplest representatives, formaldehyde and acetone, were considered for many decades to be unreactive with diazonium ions until Allan and Podstata (1960) demonstrated that acetone does react. Its reactivity is much lower, however, than that of 2-nitropropane, as seen from the extremely low enolization equilibrium constant of acetone ( E = 0.9 x 10-7, Guthrie and Cullimore, 1979 Guthrie, 1979) and its low CH acidity (pK = 19.1 0.5, Guthrie et al., 1982). ... [Pg.334]

Light and permanent gases, low molecular weight acids, alcohols, glycols, ketones, hydrocarbons, esters, nitriles and nitroalkanes. Amines, amides, alcohols, aldehydes, hydrazines and ketones. [Pg.108]

Smith, R. M. and Finn, N., Comparison of retention index scales based on alkyl aryl ketones, alkan-2-ones and 1-nitroalkanes for polar drugs on re-versed-phase high-performance liquid chromatography,. Chromatogr., 537, 51,1991. [Pg.192]

Anhydrous peroxytrifluoroacetic acid is not easy to handle, but the procedure has recently been revised.121 Namely, reaction of urea-hydrogen peroxide complex (UHP) with tri-fluoroacetic anhydride in acetonitrile at 0 °C gives solutions of peroxytrifluoroacetic acid, which oxidize aldoximes to nitroalkanes in good yields (Eqs. 2.58 and 2.59). Ketoximes fail to react under these conditions, the parent ketone being recovered. [Pg.21]

See other pages where Ketones nitroalkanes is mentioned: [Pg.184]    [Pg.218]    [Pg.184]    [Pg.218]    [Pg.172]    [Pg.297]    [Pg.638]    [Pg.97]    [Pg.46]    [Pg.46]    [Pg.46]    [Pg.107]    [Pg.129]    [Pg.129]    [Pg.159]    [Pg.628]    [Pg.336]    [Pg.77]    [Pg.78]    [Pg.1009]    [Pg.1189]    [Pg.210]    [Pg.17]    [Pg.31]    [Pg.46]   
See also in sourсe #XX -- [ Pg.166 , Pg.167 ]



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