Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Tautomer ketones

Without additional reagents Isolation of keto-enol tautomers Ketones from enols... [Pg.302]

The aldehyde or ketone is called the keto form and the keto enol equilibration referred to as keto-enol isomerism or keto-enol tautomerism Tautomers are constitu tional isomers that equilibrate by migration of an atom or group and their equilibration IS called tautomerism The mechanism of keto-enol isomerism involves the sequence of proton transfers shown m Figure 9 6... [Pg.379]

The tautomeric 2-hydroxypyrroles undergo base-catalyzed reactions probably through deprotonation to the ambident conjugate base (Scheme 71). 2-Hydroxyfurans (e.g. 178) similarly exist in ketonic forms (179) and (180), the most favoured tautomer being the conjugated 2(5//)-furanone (180)... [Pg.76]

Benzisoxazole and alicyclic ketones undergo a mercury sulfate-catalyzed cycloaddition in boiling xylene. The enol tautomers (141) are apparently involved and the yields of... [Pg.35]

Schmidt reaction of ketones, 7, 530 from thienylnitrenes, 4, 820 tautomers, 7, 492 thermal reactions, 7, 503 transition metal complexes reactivity, 7, 28 tungsten complexes, 7, 523 UV spectra, 7, 501 X-ray analysis, 7, 494 1 H-Azepines conformation, 7, 492 cycloaddition reactions, 7, 520, 522 dimerization, 7, 508 H NMR, 7, 495 isomerization, 7, 519 metal complexes, 7, 512 photoaddition reactions with oxygen, 7, 523 protonation, 7, 509 ring contractions, 7, 506 sigmatropic rearrangements, 7, 506 stability, 7, 492 N-substituted mass spectra, 7, 501 rearrangements, 7, 504 synthesis, 7, 536-537... [Pg.524]

Spectroscopic investigation of enamines conjugated with ketone, ester and nitrile groups established the prevalence of enamine rather than imine-enol tautomers in examples of secondary amines (206-212). Similar studies have been made with enamines of acylpyridines and acetophenones (213,214). [Pg.343]

Aldehydes and ketones ( keto forms) normally exist in equilibrium with their enol tautomers. [Pg.160]

The 0,N-dideuterated enol was formed by hydrolysis of the O-trimethylsilyl ether 123 (R = TMS) (in 80% [D6]DMSO/20% D2O with 5. lO " M DCl). N-Methylindoxyl (formed by hydrolysis of its acetate) exists in the solid state as a mixture of the enol and the keto tautomers (34% enol/66% keto). The NMR spectrum of freshly prepared solution in DMSO demonstrated signals of both enol and keto forms. However, at equilibrium (reached in 18 h at RT) the ratio of enol to ketone depends strongly on the polarity of the solvent used thus, in [Dg]DMSO the tautomeric mixture contains 92% enol, while in CDCI3 the keto form predominates (97%). A solution with 100% enol could be generated by hydrolysis of its O-trimethylsilyl ether [conditions 80% [Dfi]DMSO/20% D2O with 5 10" M DCl at 32°C (86TL3275 87PAC1577 88TL250)]. [Pg.119]

Interestingly, the product actually isolated from alkyne hydration is not the vinylic alcohol, or enol (ene + ol), but is instead a ketone. Although the enol is an intermediate in the reaction, it immediately rearranges to a ketone by a process called keto-enol tautomerisni. The individual keto and enol forms are said to be tautomers, a word used to describe constitutional isomers that interconvert rapidly. With few exceptions, the keto-enol tautomeric equilibrium lies on the side of the ketone enols are almost never isolated. We ll look more closely... [Pg.264]

The chemistry of alkynes is dominated by electrophilic addition reactions, similar to those of alkenes. Alkynes react with HBr and HC1 to yield vinylic halides and with Br2 and Cl2 to yield 1,2-dihalides (vicinal dihalides). Alkynes can be hydrated by reaction with aqueous sulfuric acid in the presence of mercury(ll) catalyst. The reaction leads to an intermediate enol that immediately isomerizes to yield a ketone tautomer. Since the addition reaction occurs with Markovnikov regiochemistry, a methyl ketone is produced from a terminal alkyne. Alternatively, hydroboration/oxidation of a terminal alkyne yields an aldehyde. [Pg.279]

Carbonyl compounds are in a rapid equilibrium with called keto-enol tautomerism. Although enol tautomers to only a small extent at equilibrium and can t usually be they nevertheless contain a highly nucleophilic double electrophiles. For example, aldehydes and ketones are at the a position by reaction with Cl2, Br2, or I2 in Alpha bromination of carboxylic acids can be similarly... [Pg.866]

Although the conversion of an aldehyde or a ketone to its enol tautomer is not generally a preparative procedure, the reactions do have their preparative aspects. If a full mole of base per mole of ketone is used, the enolate ion (10) is formed and can be isolated (see, e.g., 10-105). When enol ethers or esters are hydrolyzed, the enols initially formed immediately tautomerize to the aldehydes or ketones. In addition, the overall processes (forward plus reverse reactions) are often used for equilibration purposes. When an optically active compound in which the chirality is due to an asymmetric carbon a to a carbonyl group (as in 11) is treated with acid or base, racemization results. If there is another asymmetric center in the molecule. [Pg.774]

Cyclic hydrazides 411 react with acrolein, crotonaldehyde, and methyl vinyl ketone either by heating in a sealed tube at 150 °C or by refluxing in aqueous ethanol containing a catalytic amount of sodium hydroxide, to provide acceptable yields of the corresponding products 412 (Equation 57). Both possible cyclic tautomers are detectable <2002EJO3447, 2002PCJ598>. [Pg.425]

The Yao group has made use of a Ic type intramolecular Heck reaction to prepare the C2-symmetric dimeric indole core of chloptosin <06OL4919>. A solvent-free variation of the Bischler indole synthesis, electrophilic cyclization of a-arylamino imine tautomers prepared from aniline derived a-arylamino ketones, has been used by Menendez and co-workers for the preparation of 2-arylindoles <06SL91>. [Pg.153]

The insertion reaction chemistry of the well-known germylene Ge [CH(Si M03)3)2 50 is very diverse.154 323-328 This species inserts readily into the C-H bonds of mono- and dinitrile substrates (Scheme 47),154 the C-H bonds of ethers and alkanes in the presence of Phi (Scheme 48),323 the C-H bonds of ketones in the presence of MgCE (Scheme 49) and the O-H bonds of the tautomer enols in the absence of MgCl2 (Scheme 50),324 and the C-H bonds of diketones resulting in cyclic products (Scheme 51). [Pg.778]

Both 2-nitro steroids 235 and 239 exist as the enols in ethanol, and are photolysed to give the corresponding a-diketones 237 and 238 (23% in 1 1 ratio)133 (equation 108) and 240 (equation 109), but different monoxime 236 and 241, respectively. On the contrary, 4-nitroketone 242 exists in the keto form, and is photolysed to give the a-oximino ketone 243 and its tautomer 244 without the diketones (equation 110). [Pg.798]

Condensation of [3- or "y-amino alcohols with aldehydes or ketones RR CO gives the product 27. In solution the position of the equilibrium varies with R and R, and with the solvent (73). When the carbonyl reactant is a substituted benzaldehyde, the solid is found (IR, KBr) to comprise molecules of the open-chain structure 27a, whereas aliphatic aldehydes and ketones give crystals of dihydro- 1,3-benzoxazines, 27b. An interesting case is that of the condensation product of o-hydroxybenzylamine with cyclopentanone, for which McDonagh and Smith (73) suggest that ring and chain tautomers coexist in the solid. [Pg.151]

Enol esters are distinct from other esters not because of a particular stability or lability toward hydrolases, but due to their hydrolysis releasing a ghost alcohol (an enol), which may immediately tautomerize to the corresponding aldehyde or ketone. A well-studied example is that of vinyl acetate (CH3-C0-0-CH=CH2), a xenobiotic of great industrial importance that, upon hydrolysis, liberates acetic acid (CH3-CO-OH) and acetaldehyde (CH3-CHO), the stable tautomer of vinyl alcohol [25], The results of two studies are compiled in Table 7.1, and demonstrate that vinyl acetate is a very good substrate of carboxylesterase (EC 3.1.1.1) but not of acetylcholinesterase (EC 3.1.1.7) or cholinesterase (EC 3.1.1.8). The presence of carboxylesterase in rat plasma but not in human plasma explains the difference between these two preparations, although the different experimental conditions in the two studies make further interpretation difficult. [Pg.391]

The one-electron chemistry of enols has been intensively studied by Schmit-tel [108]. He has shown that the thermodynamic stability order of the ketone tautomer and the enol tautomer in the solution phase is inverted upon one-electron oxidation [109, 110]. Therefore enols are much more easily oxidized than the corresponding ketone tautomer. Supposing that the enolization is faster than the electron transfer, it ought to be possible to oxidize the enol present in small amounts beside the ketone in the equilibrium mixture. The following cyclization reactions are as useful approach to the chemistry of enol radical cations and can be considered as the a-umpolung of ketones. [Pg.89]

Hydroxyaminobenzo-furan and -thiophene (32a X = O, S) are the unstable enam-ine tautomers of the corresponding oximes (32b). Kinetics of the tautomeric interconversions have been measured, yielding tautomeric constants the latter have been compared with the corresponding keto-enol constants. The enamines are ca 40 times less stable, relative to the oximes, than are the enols, relative to the ketones. The minor tautomers are ca 100 times more stable (relative to the major) for the benzothiophene system. [Pg.9]

Treatment of benzaldehydes with ethyl diazoacetate and a catalytic quantity of the iron Lewis acid [ -CpFe(CO)2(THF)]+BF4 yields the expected homologated ketone (80). However, the major product in most cases is the aryl-shifted structure (81a), predominantly as its enol tautomer, 3-hydroxy-2-arylacrylic acid (81b). This novel reaction occurs via a 1,2-aryl shift. Although the mechanism has not been fully characterized, there is evidence for loss of THF to give a vacancy for the aldehyde to bind to the iron, followed by diazoacetate attachment. The product balance is then determined by the ratio of 1,2-aryl to -hydride shift, with the former favoured by electron-donating substituents on the aryl ring. An alternative mechanism involving epoxide intermediates was ruled out by a control experiment. [Pg.23]

Enolization and ketonization kinetics and equilibrium constants have been reported for phenylacetylpyridines (85a), and their enol tautomers (85b), together with estimates of the stability of a third type of tautomer, the zwitterion (85c). The latter provides a nitrogen protonation route for the keto-enol tautomerization. The two alternative acid-catalysed routes for enolization, i.e. O- versus Af-protonation, are assessed in terms of pK differences, and of equilibrium proton-activating factors which measure the C-H acidifying effects of the binding of a proton catalyst at oxygen or at nitrogen. [Pg.24]

The greater stability of simple ketones relative to their enol tautomers is reversed on formation of the corresponding radical cations (88a) (88b). In appropriate cases, ionization of the ketone to its cation is followed by spontaneous hydrogen transfer to give the enol radical cation. 1,5-Hydrogen transfer via a six-membered-ring transition state is a common route. Characterization of such mechanisms has been reviewed for a variety of such reactions in cryogenic matrices, where many of the processes that compete in solution are suppressed. ... [Pg.25]

Whilst reactions of a, -unsaturated carbonyl compounds with 2 have been the subject of a number of studies, the corresponding reactions of their enolic tautomers have received little attention. Reaction of the /S-hydroxy-a, /i-unsaturated ketones... [Pg.241]

The difference in conjugation between neutral molecules and their ion-radicals can also be traced for keto-enol tautomerism. As a rule, enols are usually less stable than ketones. Under the equilibrium conditions, enols exist only at a very low concentration. However, the situation becomes different in the corresponding cation-radicals, where gas-phase experiments have shown that enol cation-radicals are usually more stable than their keto tautomers. This is because enol cation-radicals profit from allylic resonance stabilization that is not available to ketones (Bednarek et al. 2001, references therein). [Pg.183]

Imines derived from ketones with an a-methylene group can react via their enamine tautomers, and mixtures of triazoles are also isolated from these systems. The triazoline adducts of the enamine tautomers are aromatized by treating with acid, and in these conditions the triazoline appears to undergo a Dimroth rearrangement before elimination of the amine, because two triazoles are obtained, one of which has... [Pg.50]


See other pages where Tautomer ketones is mentioned: [Pg.24]    [Pg.36]    [Pg.110]    [Pg.215]    [Pg.62]    [Pg.101]    [Pg.134]    [Pg.245]    [Pg.271]    [Pg.769]    [Pg.278]    [Pg.1250]    [Pg.300]    [Pg.306]    [Pg.76]    [Pg.319]    [Pg.28]    [Pg.279]    [Pg.340]    [Pg.199]    [Pg.89]    [Pg.125]    [Pg.600]    [Pg.210]   
See also in sourсe #XX -- [ Pg.30 ]




SEARCH



Ketone tautomers

Tautomer

Tautomers

© 2024 chempedia.info