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Oxidation to amides

Nitrones, C=N" (R)=0, are generated by the oxidation of N-hydroxyl secondary amines with 5% aq. NaOCl. ° Secondary amines, such as dibenzylamine, can be converted to the corresponding nitrone by heating with cumyl hydroperoxide in the presence of a titanium catalyst. Imines are oxidized to amides with mcpba and BF3 OEt2. ° ... [Pg.1732]

In the presence of ammonia, some primary alcohols are oxidized to amides with nickel peroxide (equation 239) [1137. ... [Pg.132]

The zwitterion (6) can react with protic solvents to produce a variety of products. Reaction with water yields a transient hydroperoxy alcohol (10) that can dehydrate to a carboxyUc acid or spHt out H2O2 to form a carbonyl compound (aldehyde or ketone, R2CO). In alcohoHc media, the product is an isolable hydroperoxy ether (11) that can be hydrolyzed or reduced (with (CH O) or (CH2)2S) to a carbonyl compound. Reductive amination of (11) over Raney nickel produces amides and amines (64). Reaction of the zwitterion with a carboxyUc acid to form a hydroperoxy ester (12) is commercially important because it can be oxidized to other acids, RCOOH and R COOH. Reaction of zwitterion with HCN produces a-hydroxy nitriles that can be hydrolyzed to a-hydroxy carboxyUc acids. Carboxylates are obtained with H2O2/OH (65). The zwitterion can be reduced during the course of the reaction by tetracyanoethylene to produce its epoxide (66). [Pg.494]

Another subclass of substituted amides that is of great commercial value is the ethoxylated amides. They can be synthesized from alkanolamides by chain extending with ethylene or propylene oxide or by ethoxylation directly from the primary amide (46—48). It was originally beheved that the stepwise addition of ethylene oxide (EO) would produce the monoethano1 amide and then the diethanolamide when sufficient ethylene oxide was added (49), but it has been discovered that only one hydrogen of the amide is substituted with ethylene oxide (50—53). As is typical of most ethylene oxide adducts, a wide distribution of polyethylene oxide chain length is seen as more EO is added. A catalyst is necessary to add ethylene oxide or propylene oxide to a primary or an ethoxylated amide or to ethoxylate a diethoxy alkanolamide synthesized from diethanolamine (54). [Pg.184]

Alkylarylisoxazoles can be obtained from the cycloaddition of nitrile Af-oxides to substituted alkynes or alkenes (Section 4.16.4.1.2(ii)), and from the condensation of the 1,4-dilithio oximes (358) with benzonitriles (72JHC183) or amides (78JOC3015). [Pg.84]

Primary and secondary amines, double bonds, aldehydes, sulfides and certain aromatic and dihydroaroraatic systems are also oxidized by chromium VI reagents under standard hydroxyl oxidizing conditions. Amines are commonly protected by salt formation or by conversion to amides. Aldehydes and... [Pg.226]

Macaudiere et al. first reported the enantiomeric separation of racemic phosphine oxides and amides on native cyclodextrin-based CSPs under subcritical conditions [53]. The separations obtained were indicative of inclusion complexation. When the CO,-methanol eluent used in SFC was replaced with hexane-ethanol in LC, reduced selectivity was observed. The authors proposed that the smaller size of the CO, molecule made it less likely than hexane to compete with the analyte for the cyclodextrin cavity. [Pg.308]

Oxidation to adds by KMnO 100 °C subsequent acces to acyl chlorides nitriles, amides J deprotcnation by tBuOK followed by alkylation or functionalization fay electrophiles... [Pg.49]

In a similar reaction, tertiary amines are converted to amides " and cyclic tertiary amines (e.g., 30) can be converted to lactams by oxidation with Hg —EDTA complex in basic solution. [Pg.1535]

Aqueous HCI solutions hydrolyze the P-N bond to give the amine hydrochloride and R2P-OH, which then disproportionates and is oxidized to diphenylphosphinic acid. A free phosphinous amide anion, with the countercation complexed by a crown ether, has been shown to be hydrolyzed and oxidized to the corresponding phosphinite with unusual ease [119]. Formic acid in toluene can be utilized for converting P,P-disubstituted phosphinous amides into their respective phosphane oxides [30]. [Pg.90]

S (2)-hydroxy-3-butenenitrile from acrolein and HCN trans hydrocyanation using, for instance, acetone cyanohydrin Hydrolysis of nitriles to amides, e.g. acrylonitrile to acrylamide Isomerization of glucose to fructose Esterifications and transesterifications Interesterify positions 1 and 3 of natural glycerides Oxidation of glucose to gluconic acid, glycolic acid to glyoxalic acid... [Pg.158]

Direct oxidation of amides can also lead to Hofmann-type rearrangement with formation of amines or carbamates. One reagent that is used is Pb(02CCH3)4. [Pg.949]

The earliest oxidations were effected with nitrous fumes and later with mercuric oxide and isoamyl nitrite.74 Lead tetraacetate in acetic acid is in many cases the reagent of choice, but the removal of by-products can present some difficulties.75 IV-Haloimides and amides in alcoholic solutions have been reported to yield essentially pure tetrazolium salts76 and have been found specially useful in the preparation of heteroaryl-substituted tetrazolium salt.77,78 The novel formazans 49 have been successfully oxidized to 50 using 7V-chloro succinimide (Eq. II).79 tert-Butyl hypo-... [Pg.219]

Formazans are stable in alkaline solution. Alkaline hydrolysis of functionalities on formazans such as nitriles, esters, and amides leads to the acids (Section 7.3.1.1). The case of 3-nitroformazans (198) is unique. Reaction with hydroxide ion gives 3-hydroxy formazan (199) which can be readily oxidized to the tetrazolium betaine. In the presence of hydrosulfide, a reduction of the nitro group takes place giving 3-aminoformazan (200) with traces of the 3-mercaptoformazan (201), which by contrast is the main product when ammonium polysulfide is used (Scheme 30).45,346... [Pg.263]

Shamma et al. (81) carried out a synthesis of ledecorine (75) starting with coptisine chloride (14) (Scheme 22). Compound 14 was first oxidized to en-amide 83 (an analog of polycarpine) and then successively reduced to supply a mixture of norledecorine (84) and ledecorine (75). [Pg.260]


See other pages where Oxidation to amides is mentioned: [Pg.96]    [Pg.243]    [Pg.98]    [Pg.613]    [Pg.234]    [Pg.275]    [Pg.96]    [Pg.243]    [Pg.98]    [Pg.613]    [Pg.234]    [Pg.275]    [Pg.19]    [Pg.30]    [Pg.308]    [Pg.524]    [Pg.176]    [Pg.178]    [Pg.180]    [Pg.283]    [Pg.304]    [Pg.290]    [Pg.280]    [Pg.238]    [Pg.186]    [Pg.654]    [Pg.226]    [Pg.116]    [Pg.91]    [Pg.17]    [Pg.304]    [Pg.182]    [Pg.267]    [Pg.343]    [Pg.325]    [Pg.14]    [Pg.210]    [Pg.335]   
See also in sourсe #XX -- [ Pg.1732 ]




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Amide oxides

Amides oxidation

Oxidation of Aldehydes to Amides, Esters and Related Functional Groups

Oxidative amidation

To amides

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