Alkyl derivatives carbonylation

Hydrazine and its alkylated derivatives are used as rocket fuels in organic chemistry, substituted phenylhydrazines are important in the characterisation of sugars and other compounds, for example aldehydes and ketones containing the carbonyl group C=0. 

The alkyl derivatives of thiazoles can be catalytically oxidized in the vapor phase at 250 to 400°C to afford the corresponding formyl derivatives (21). Molybdenum oxide, V2O5, and tin vanadate are used as catalysts either alone or with a support. The resulting carbonyl compounds can be selectively oxidized to the acids. 

A comparison of the relative basicities of pyrrole, furan and thiophene may be made by comparing the pK values of their 2,5-di-t-butyl derivatives, which were found to be -1.01, —10.01 and —10.16, respectively. In each case protonation was shown by NMR to occur at position 2. The base-strengthening effect of alkyl substitution is clearly apparent by comparison of pyrrole and its alkyl derivatives, e.g. A-methylpyrrole has a pKa. for a-protonation of -2.9 and 2,3,4,5-tetramethylpyrrole has a pK of 4-3.7. In general, protonation of a-alkylpyrroles occurs at the a -position whereas /3-alkylpyrroles are protonated at the adjacent a-position. As expected, electron-withdrawing groups are base-weakening thus A-phenylpyrrole is reported to have a p/sTa of -5.8. The IR spectrum of the hydrochloride of 2-formylpyrrole indicates that protonation occurs mainly at the carbonyl oxygen atom and only to a limited extent at C-5. 

Two substituents on two N atoms increase the number of diaziridine structures as compared with oxaziridines, while some limitations as to the nature of substituents on N and C decrease it. Favored starting materials are formaldehyde, aliphatic aldehydes and ketones, together with ammonia and simple aliphatic amines. Aromatic amines do not react. Suitable aminating agents are chloramine, N-chloroalkylamines, hydroxylamine-O-sulfonic acid and their simple alkyl derivatives, but also oxaziridines unsubstituted at nitrogen. Combination of a carbonyl compound, an amine and an aminating agent leads to the standard procedures of diaziridine synthesis. 

However, the 0-alkyl derivatives are potentially unstable with respect to thermal elimination of a carbonyl compound and consequent reduction to the corresponding lactam. A combination of steric and electronic factors may permit this decomposition, i.e., 133 -a- 134, to occur at quite moderate temperatures. The 0-methyl derivative of the benzalphthalimidine (132) undergoes slow loss of formaldehyde at 177° (Ti/a in dimethyl sulfoxide 40 minutes), but this elimination is much faster in certain thiohydroxamic acid derivatives, e.g., 135, which lose benzaldehyde readily at 139° in dimethyl sulfoxide (T1/2 6 minutes). The outstanding example of this decomposition, however,... 

On page 132, atropisomerism was possible when ortho substituents on biphenyl derivatives and certain other aromatic compounds prevented rotation about the bond. The presence of ortho-substituents can also influence the conformation of certain groups. In 88, R= alkyl, the carbonyl unit is planar with the trans C=0 - F conformer more stable when X=F. When X=CF3, the cis and trans are planar and the trans predominates. When R = alkyl there is one orthogonal conformation but there are two interconverting nonplanar conformations when R=0-alkyl. In 1,2-diacylbenzenes, the carbonyl units tend to adopt a twisted conformation to minimize steric interactions. " ... 

As mentioned in chapter 4.2.3, aliphatic imines are photochemically rather unreactive. When the C—N double bond is conjugated to an electron withdrawing group (e.g. carbonyl group), as in O-alkyl derivatives of succinimide and phthalimide, the reactivity increases and azetidines are obtained in cycloadditions to olefins486). A somehow similar example is the photoaddition of a 6-azauracil derivative to 2,3-dimethyl-2-butene... 

DECOMPOSITION OF INORGANIC OXIDES AND SULPHIDES HALIDES AND DERIVATIVES METAL ALKYLS, ARYLS, CARBONYLS AND NITROSYLS... 

The chiral A/ -propionyl-2-oxazolidones (32 and 38) are also useful chiral auxiliaries in the enantioselective a-alkylation of carbonyl compounds, and it is interesting to observe that the sense of chirality transfer in the lithium enolate alkylation is opposite to that observed in the aldol condensation with boron enolates. Thus, whereas the lithium enolate of 37 (see Scheme 9.13) reacts with benzyl bromide to give predominantly the (2/ )-isomer 43a (ratio 43a 43b = 99.2 0.8), the dibutylboron enolate reacts with benzaldehyde to give the (3R, 25) aldol 44a (ratio 44a 44b = 99.7 0.3). The resultant (2R) and (25)-3-phenylpropionic acid derivatives obtained from the hydrolysis of the corresponding oxazolidinones indicated the compounds to be optically pure substances. 

Acyclic ethers undergo partial j8-scission with formation of carbonyl and alkyl derivatives. Thus with ethyl ether the introduction of the oxyalkyl group is accompanied by appreciable quantities of ethyl and acetyl derivatives, attributed to jS-scission of the a-oxyalkyl radical [Eq. (47)]. 

Sulfur compounds have also proven to be useful as nucleophilic acyl equivalents. The first reagent of this type to find general use was 1,3-dithiane, which on lithiation provides a nucleophilic acyl equivalent. The lithio derivative is a reactive nucleophile toward alkyl halides, carbonyl compounds and enones.116 117 118... 

Haines AH (1988) Methods for the oxidation of organic compounds - alcohols, alcohol derivatives, alkyl halides, nrtroalkanes, alkyl azides, carbonyl compounds, hydroxyarenes and aminoarenes. Academic Press, London, pp 54-64... 

Singular characteristics of the ruthenium catalysts are the capability of direct activation of different substrates (alcohols, ethers, formic,orthoformic and other carboxylic acid esters) at a low iodine concentration, and a high flexibility toward carbonylation and/or homologation processes for the substrates used. The catalytic activity of the ruthenium catalysts moreover do not strongly decrease, as occurs with Co or Rh systems, by passing from methyl to higher oxygenated alkyl derivatives. 

The generality of the carbon monoxide insertion reaction is clear from reports that methylcyclopentadienyliron dicarbonyl (16), ethylcyclopentadienylmolylbde-num tricarbonyl (66), alkylrhenium pentacarbonyls (50), alkylrhodium dihalo carbonyl bisphosphines (34), allylnickel dicarbonyl halides (35), and mono-and di-alkyl derivatives of the nickel, palladium, and platinum bisphosphine halides (P), also undergo the reaction. The reaction of Grignard reagents (24), and of boron alkyls (51) with carbon monoxide probably takes place by the same mechanism. 

Several cyclopentadienyl(alkyl)metal carbonyl derivatives have reacted with acetylenes. In some examples, insertion reactions may also be involved, although the mechanisms have not been investigated. Cyclopentadienyl(methyl)iron dicarbonyl with diphenylacetylene gave a 10% yield of cyclopen tadienyltetra-phenylcyclopentadienyliron 71). 

The lithium derivatives described above react with electrophiles such as alkyl halides, carbonyl compounds, and thiocarbonyl compounds, resulting in the corresponding 3-substituted derivatives (190). Hydrolysis of these products by dilute acid as described in Section B,1 gives the new nonproteinogenic amino acid ester (191) along with the original amino acid ester used as the chiral auxiliary. The chemical yields are above 80% (83MI1). 

Alan H. Haines, Methods for the Oxidation of Organic Compounds, Alcohols, Alcohol Derivatives. Alkyl Halides, Nitroalkanes, Alkyl Azides, Carbonyl Compounds, Hydroxyarenes and Amino-arene s, 1988... 

Reduction of the carbonyl groups at the 2-position of the pyrrole ring and at the 3-position of the indole ring with LAH or diborane generally leads to the formation of the corresponding alkyl derivatives, due to the facile nucleophilic displacement of the hydroxy group of the carbinols by the mechanism depicted in Scheme 69 (see Section 3.05.2.2). Predictably,... 

Reaction XLIII. (c) Condensation of a-Halogen Fatty Acid Esters with Aldehydes and Ketones by means of Zinc or Magnesium (Reformatsky-Grignard). (C., (1901), I., 1196 II., 30 (1902), I., 856.)—This is an extension of the Grignard and zinc alkyl reactions which enables a-halogen esters to be condensed with carbonyl compounds as if they were simple alkyl halogen compounds. The zinc or magnesium alkyl derivative is neither prepared beforehand nor isolated in the reaction, but there is little doubt that some such compound is transitorily formed. Zinc is the metal... 

Alkylation reactions of [Re(CO)4]3 have provided the first alkyl derivatives of carbonylmetallates(3 —). Although the reactions of alkylating agents with Na3[Mn(CO)4] are not yet well understood, treatment of a solution of Na3[Re(CO)4] in HMPA with two equivalents of methyl tosylate gave the first dialkyl derivative of a carbonyl trianion, as a thermally stable sodium salt. Addition of this solution to aqueous [Ph4E]Cl (E = P or As) caused nearly quantitative precipitation of product as shown in Eq. (11). High... 

Application of the alcohol interchange reaction (method 6) is limited by certain phenols and also di and trisubstituted glyoxides (while the reaction of metals with glycols gives only monosubstituted derivatives) [745, 621, 575, 1584,1369]. As redox processes (method 7) can be considered the Grignard-type reactions — the interaction of metal alkyls with carbonyl compounds,... 

The asymmetric a-alkylation of carbonyl compounds is a fundamental reaction. Under PTC conditions, acidic substrates such as phenylketone derivatives can be used to create chiral stereogenic centers. Andrus demonstrated asymmetric glycolate alkylation with up to 90% ee using various electrophiles and its application to the synthesis of (-)-ragaglitazar in six steps (Scheme 3.16) [37-39]. 

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