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Oxidative of propargyl alcohols

The procedure described is that of Wille and Saffer. Propiolaldehyde has also been prepared by the oxidation of propargyl alcohol using ammonium dichromate or manganese dioxide in 10% sulfuric acid. Propiolaldehyde has also been prepared by warming the dimethyl or diethyl acetal with dilute sulfuric acid. ... [Pg.68]

The homogeneous, anaerobic, oxidation of propargyl alcohol by cupric acetate in buffered pyridine solution is an example of a general reaction... [Pg.428]

The methanolic cupric bromide oxidation of propargyl alcohol to trans-BrCH-CBrCH20H (30%) and Br2C=CBrCH20H (18%) and, under other reaction conditions, Br2C-CBr-CH20H (93 %) follows simple second-order kinetics with a rate coefficient of 1.5 x 10 l.mole . sec at 64 °C. A mechanism of ligand-transfer in a 7t-complex is proposed. ... [Pg.429]

In addition to the reactions discussed above, there are still other alkyne reactions carried out in aqueous media. Examples include the Pseudomonas cepacia lipase-catalyzed hydrolysis of propargylic acetate in an acetone-water solvent system,137 the ruthenium-catalyzed cycloisomerization-oxidation of propargyl alcohols in DMF-water,138 an intramolecular allylindination of terminal alkyne in THF-water,139 and alkyne polymerization catalyzed by late-transition metals.140... [Pg.140]

Selective oxidation of allylic alcohols.1 This zircononcene complex when used in catalytic amount can effect an Oppenauer-type oxidation of alcohols, including allylic ones, in the presence of a hydrogen acceptor, usually benzaldehyde or cyclohexanone. This system oxidizes primary alcohols selectively in the presence of secondary ones. Thus primary allylic alcohols are oxidized to the enals with retention of the configuration of the double bond in 75-95% yield. The method is not useful for oxidation of propargylic alcohols. [Pg.37]

The oxidation of propargyl alcohol to the acid and of but-2-yne-l,4-diol to acetylene dicarboxylic acid is carried out on a technical scale at a lead dioxide anode in sulphuric acid [4, 5]. Electrochemical oxidation of acetylenic secondary alcohols to the ketone at lead dioxide in aqueous sulphuric acid [4], gives better results than the cliromic acid based process of Jones [6], Oxidation of aminoalkan-1-ols to the amino acid at a lead dioxide anode in sulphuric acid is achieved in 31 -73 % 5delds [7]. This route is applied to the technical scale production of (l-alanine from 3-aminopropanol in an undivided cell [8]. [Pg.262]

By the oxidation of propargyl alcohol, propinol, CH=C—CH2OH (p. 167), an acid is obtained having the constitution CH=C—COOH and known as propiolic acid or propinoic acid and also as acetylene carboxylic acid. This is the simplest acid of the ethine series and the only one we shall mention. Derivatives of it are of importance in the benzene series in Part li as will be shown later. [Pg.181]

Preparation by oxidation of propargyl alcohol from the General Aniline and Film Corporation, Easton, Penn.1... [Pg.211]

N.B. Propargylaldehyde attacks the mucous membranes of the eyes and nose. It can also be prepared by oxidation of propargyl alcohol with active manganese dioxide.10... [Pg.322]

Oxidation of Propargylic Alcohols. Propargylic alcohols are easily oxidized by Mn02 to alkynic aldehydes and ketones (eqs 16-18). In the example in eq 19 the unstable propargyl aldehyde is trapped as a Michael adduct. ... [Pg.250]

Benzylic and allylic alcohols are oxidised to the corresponding aldehydes or ketones in the presence of copper(n) chloride/cesium carbonate as a catalyst under oxygen (Scheme 15.44). A catalytically active p-hydrojyl-bridged trinuclear copper species was isolated and its X-ray crystal structure was determined. A highly efficient oxidation of propargylic alcohols to ynones under air has been carried out in the presence of copper nanoparticles (Cu Nps) with bipyridine as a ligand (Scheme 15.45). ... [Pg.21]

Scheme 15.45 Copper-catalysed oxidation of propargyl alcohol under air. Scheme 15.45 Copper-catalysed oxidation of propargyl alcohol under air.
An innovative method is described in this case, which combines the use of a metal-catalyzed oxidation of propargylic alcohols with subsequent iminium-catalyzed sequence involving an original allenamine intermediate (Scheme 7.34) [52]. [Pg.201]

A nice substituted carbazole synthesis begins with installation of propargyl alcohol via its Sonogashira coupling with aryl iodide 69. Subsequent oxidation of propargylic alcohol 70 to the aldehyde, followed by stabilized Wittig reaction, affords a conjugated intermediate ene-yne 71,... [Pg.120]

To a mixture of 100 ml of dry dichloromethane, 0.10 mol of propargyl alcohol and 0.11 mol of triethylamine was added a solution of 0.05 mol of Ph2PCl in 75 ml of dichloromethane in 3 min between -80 and -90°C. The cooling bath was removed, and when the temperature had reached 10°C, the reaction mixture was poured into a solution of 2.5 ml of 362 HCl in 100 ml of water. After vigorous shaking the lower layer was separated and the aqueous layer was extracted twice with 25-ml portions of dichloromethane. The combined solutions were washed twice with water, dried over magnesium sulfate and then concentrated in a water-pump vacuum, giving almost pure allenyl phosphine oxide as a white solid, m.p. 98-100 5, in almost 1002 yield. [Pg.199]

As an application of maleate formation, the carbonylation of silylated 3-butyn-l-ol affords the 7-butyrolactone 539[482], Oxidative carbonylation is possible via mercuration of alkynes and subsequent Lransmetallation with Pd(II) under a CO atmosphere. For example, chloromercuration of propargyl alcohol and treatment with PdCF (1 equiv.) under 1 atm of CO in THF produced the /3-chlorobutenolide 540 in 96% yield[483]. Dimethyl phenylinale-ate is obtained by the reaction of phenylacetylene, CO, PdCU, and HgCl2 in MeOH[484,485]. [Pg.100]

With two equivalents of an organomagnesium hahde, a Gtignard reagent is formed, capable of use in further syntheses (35,36). Cuprous salts cataly2e oxidative dimerization of propargyl alcohol to 2,4-hexadiyne-l,6-diol [3031-68-3] (37). [Pg.104]

Compounds with triple bonds, i.e. acetylenic compounds, continue to receive attention. Patents have been filed for mixtures of propargyl alcohol with, for example, cellosolve + a phenol formaldehyde resin + tar bases heterocyclic nitrogen compounds + acetylenic + dialkylthiourea or a quaternary + antimony oxide . [Pg.800]

R = Me, R = H) with cyclohexenol in the presence of F ion followed by NaOCl oxidation gave the tricyclic ether 61 in 65% yield (Scheme 9) [29]. The use of propargyl alcohol and propargyl thiol led, via the acetylenic oximes, to fused tetrahydrofuranoisoxazoles 62 a and 62 b, and tetrahydrothiopheno[3,4-c]isoxa-zole 62 c, respectively. Reaction of l-butyn-4-ol with 0-trimethylsilyl a-bro-moaldoxime 52e (R = R = Me) led to the tetrahydropyranoisoxazole 62 d. [Pg.10]

Elder, R.C., Florian, L.R., Kennedy, E.R., and Macomber, R.S., Phosphorus containing products from the reaction of propargyl alcohols with phosphorus trihalides. II. The crystal and molecular structure of 2-hydroxy-3,5-di-ferf-butyl-l,2-oxaphosphol-3-ene 2-oxide, /. Org. Chem., 38, 4177, 1973. [Pg.149]

The virtue of performing the PKR in an enantioselective manner has been extensively elaborated during the last decade. As a result, different powerful procedures were developed, spanning both auxiliary-based approaches and catalytic asymmetric reactions. For instance, the use of chiral N-oxides was reported by Kerr et al., who examined the effect of the chiral brucine N-oxide in the intermolecular PKR of propargylic alcohols and norbornadiene [59]. Under optimized conditions, ee values up to 78% at - 60 °C have been obtained (Eq. 10). Chiral sparteine N-oxides are also able to induce chirality, but the observed enantioselectivity was comparatively lower [60]. [Pg.180]

Scheldt and co-workers have also illustrated the oxidation of activated alcohols to esters [132], Oxidations of alcohols such as 260 provide the electrophile (acyl donor) for a nucleophilic alcohol 261. Esters 262 are derived from propargylic, allylic, aromatic, and hetero-aromatic substrates (Table 20). The nucleophilic alcohol scope includes MeOH, n-BuOH, f-BuOH, 2,2,2-trichloroethanol, 2-methoxyethanol, and 2-(trimethylsilyl) ethanol. [Pg.124]

In the presence of a catalytic amount of methanethiolate-bridged diruthenium complex (la abbreviated as met-DIRUX), reactions of propargylic alcohols (2) with a variety of heteroatom-centered nucleophiles such as alcohols, thiols, amines, amides, and diphenylphosphine oxide gave the corresponding propargylic substituted... [Pg.219]

Scheme 7.7 Double phosphinylation of propargylic alcohols with diphenylphosphine oxide. Scheme 7.7 Double phosphinylation of propargylic alcohols with diphenylphosphine oxide.
Scheme 7.8 Formation of a7l(diphenyl)phosphine oxide from propargylic alcohol and diphenylphosphine oxide. Scheme 7.8 Formation of a7l(diphenyl)phosphine oxide from propargylic alcohol and diphenylphosphine oxide.
See other pages where Oxidative of propargyl alcohols is mentioned: [Pg.380]    [Pg.248]    [Pg.70]    [Pg.104]    [Pg.380]    [Pg.248]    [Pg.70]    [Pg.104]    [Pg.461]    [Pg.580]    [Pg.706]    [Pg.803]    [Pg.75]    [Pg.154]    [Pg.393]    [Pg.797]    [Pg.197]    [Pg.60]    [Pg.129]    [Pg.220]    [Pg.222]    [Pg.219]    [Pg.220]    [Pg.222]    [Pg.123]    [Pg.518]   
See also in sourсe #XX -- [ Pg.280 ]



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