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Grignard, ketone from amide

Conductivity measurements have revealed that DMF and carboxylic acid chlorides form salt-like adducts (22) in an equilibrium reaction (equation 12). Such adducts can be prepared either from DMF and acid halides (chlorides and bromides) or from chloromethyleneiminium salts and salts of carboxylic acids. Acyloxyiminium salts (23) can be prepared in the pure state by reacting acid amides with carboxylic acid chlorides in the presence of silver trifluoromethanesulfonate (equation 13). Salts of type (24 equation 14) are regarded as being intermediates in the synthesis of ketones from carboxylic acids and Grignard reagents in the presence of a-chloroenamines as well as in the preparation of acyl halides (F, Cl, Br, I) by action of a-haloenamines on carboxylic acids. ... [Pg.493]

Discussed in this chapter, for the most part, are documented cases where complexes derived from (one or more equivalents of) a Grignard or organolithium reagent, in combination with a copperfl) salt, have been used to add to an aldehyde, ketone, imine, amide or nitrile moiety. In the majority of examples, the key issue is one of stereocontrol. Hence, where available, data within the organocopper manifold versus those for other organometallic reagents are provided for comparison. [Pg.107]

Thioamides can be obtained in 40—60% yield by the reaction of Grignard reagents with triphenylphosphine thiocyanate. In a continuation of earlier work, Yoshida s group has found that a large range of enolates (e.g. those from ketones, esters, amides, acetoacetates) add in a conjugative manner to a,jS-unsaturated thioamides the derivatives thus obtained can easily be converted into esters and amides (cf. 3, 253). [Pg.125]

Nitriles also react w ith Grignard reagents to give ketones, which arise from the hydrolysing action of the dilute sulphuric acid on the intermediate addition product. Acid amides beha e similarly. [Pg.283]

Hydroperoxides have been obtained from the autoxidation of alkanes, aralkanes, alkenes, ketones, enols, hydrazones, aromatic amines, amides, ethers, acetals, alcohols, and organomineral compounds, eg, Grignard reagents (10,45). In autoxidations involving hydrazones, double-bond migration occurs with the formation of hydroperoxy—azo compounds via free-radical chain processes (10,59) (eq. 20). [Pg.105]

For an improved procedure with amides, see Olah, G.S. Prakash, G.K.S. Arvanaghi, M. Synthesis, 1984, 228. See Martin, R. Romea, R Tey, C. Urpi, R Vilarrasa, J. Synlett, 1997, 1414 for reaction with an amide derived from morpholine and Grignard reagents, whch gives the ketone in good yield. See Kashima, C. Kita, I. Takahashi, K. Hosomi, A. J. Heterocyclic Chem., 1995, 32, 25 for a related reaction. [Pg.670]

The ketone 15 was eventually prepared by Grignard addition to Weinreb amide 21, as shown in Scheme 5.5. The Weinreb amide 21 was prepared from p-iodobenzoic acid (20). The phenol of readily available 3-hydroxybenzaldehyde (22) was first protected with a benzyl group, then the aldehyde was converted to chloride 24 via alcohol 23 under standard conditions. Preparation of the Grignard reagent 25 from chloride 24 was initially problematic. A large proportion of the homo-coupling side product 26 was observed in THF. The use of a 3 1 mixture of toluene THF as the reaction solvent suppressed this side reaction [7]. The iodoketone 15 was isolated as a crystalline solid and this sequence was scaled up to pilot plant scale to make around 50 kg of 15. [Pg.147]

The diketoindoles 777 were prepared in three steps starting from indol-3-ylacetic acid (680) and 5-chloro indol-3-ylacetic acid (774) in 75% and 66% overall yield, respectively. The indole acids 680 and 774 were converted into Weinreb amides 775, followed by reaction with ethyl Grignard reagent to afford the corresponding indol-3-yl ketones 776. In order to introduce the second carbonyl moiety, the 3-substituted... [Pg.243]

Alkylation or acylation of ketones, sulfides, and amines. This reagent generally reacts with alcohols or carboxylic acids to form 2,2,2-trifluoroethyl ethers or esters in satisfactory yields, except in the case of alcohols prone to dehydration. The reaction of these ethers provides a simple synthesis of unsymmctrical sulfides (equation I). A similar reaction can be used for preparation of secondary amines or amides (equation II). Enolatc anions (generated from silyl cnol ethers with KF) can be alkylated or acylated with a or b (equation III). Use of Grignard reagents in this type of coupling results in mediocre yields. [Pg.43]

Pyrrolidines. The Grignard reagent 2, obtained from 3-bromopropylamine protected as the stabase adduct with 1, reacts with the N-methoxy-N-methyl amides 3 (11, 201-202) to form an intermediate ketone that cyclizes to an imine on liberation of the free primary amino group. Reduction of the imine results in a 2-substituted pyrrolidine (4). [Pg.179]

See other pages where Grignard, ketone from amide is mentioned: [Pg.217]    [Pg.1565]    [Pg.333]    [Pg.619]    [Pg.407]    [Pg.478]    [Pg.99]    [Pg.25]    [Pg.19]    [Pg.145]    [Pg.568]    [Pg.28]    [Pg.92]    [Pg.276]    [Pg.293]    [Pg.72]    [Pg.56]    [Pg.453]    [Pg.489]    [Pg.248]    [Pg.270]    [Pg.312]    [Pg.75]    [Pg.337]    [Pg.279]    [Pg.284]    [Pg.284]    [Pg.142]    [Pg.303]    [Pg.533]    [Pg.1446]   
See also in sourсe #XX -- [ Pg.86 ]



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