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2,4-pentanedione enolate

For the Michael addition of 2,4-pentanedione enolate to ethyl propiolate, improvements in conversion were determined. This example serves also to demonstrate that proper process conditions are mandatory to have success with micro-reactor processing. A conversion of only 56% was achieved when using electroosmotically driven flow with a two-fold injection, the first for forming the enolate and the second for its addition to the triple bond (batch synthesis 89%) [151]. Using instead a stopped-flow technique to enhance mixing, a conversion of 95% was determined. [Pg.67]

Organic synthesis 52 [OS 52] Addition of2,4-pentanedione enolate to ethyl propiolate [8]... [Pg.492]

Both of these features are apparent m the structure of the enol of 2 4 pentanedione shown in Figure 18 2... [Pg.762]

Learning By Model mg contains molecu lar models of the enolates of acetone and 2 4 pentanedione Compare the two with respect to the dis tribution of negative charge... [Pg.764]

Ketones with labile hydrogen atoms undergo enol acetylation on reaction with ketene. Strong acid catalysis is required. If acetone is used, isoptopenyl acetate [108-22-5] (10) is formed (82—85). Isopropenyl acetate is the starting material for the production of 2,4-pentanedione (acetylacetone) [123-54-6] (11). [Pg.477]

Trimethylsilyloxy-3-penten-2-one cis) (acetylacetone enol trimethylsilyl ether) [13257-81-3 M 172.3, b 66-68"/4mm, 61-63"/5mm, d4 0.917, Up 1.452. Fractionally distilled and stored in glass ampoules which are sealed under N2. It hydrolyses readily in contact with moisture giving, as likely impurities, hexamethyldisiloxane and 2,4-pentanedione. [J Am Chem Soc 80 3246 795S.]... [Pg.491]

Quantitative analysis of mixtures is achieved by evaluating the integral steps of H NMR speetra. This is demonstrated in Fig. 1.11a for 2,4-pentanedione (acetylacetone) which occurs as an equilibrium mixture of 87 % enol and 13 % diketone. [Pg.9]

Figure 1.11. NMR analysis of the keto-enol tautomerism of 2,4-pentanedione [CDCIa, 50% v/v, 25 °C, 60 MHz for H, 20 MHz for C]. (a) H NMR spectrum with integrais [resuit keto enoi = 13 87] (b) H broadband de-coupied C NMR spectrum (c) C NMR spectrum obtained by inverse gated H decoupiing with integrals [result keto enol = 15 85 ( 1)]... Figure 1.11. NMR analysis of the keto-enol tautomerism of 2,4-pentanedione [CDCIa, 50% v/v, 25 °C, 60 MHz for H, 20 MHz for C]. (a) H NMR spectrum with integrais [resuit keto enoi = 13 87] (b) H broadband de-coupied C NMR spectrum (c) C NMR spectrum obtained by inverse gated H decoupiing with integrals [result keto enol = 15 85 ( 1)]...
Tnfluoroacetonitrile oxide also reacts with stabilized enolate ions, such as that derived from 2,4-pentanedione, to give good yields of 1,3-dipolar adducts [38] (equation 38). [Pg.810]

How many different enolates may arise from deprotonation of 2,4-pentanedione Draw Lewis structures for each, and predict which is likely to be the most stable. Check your conclusions by examining the energies of the different possible enolates (enolate A, B...). Is the most stable enolate that derived from deprotonation of the most electron-poor hydrogen Compare the electrostatic potential maps of the anions with each other and with your Lewis structures. Revise your drawings to be consistent with the maps. Why is one of the enolates preferred over the others ... [Pg.163]

Comprehensive work in this field has been done by Slovak authors (98MI1, 95M1359, 96CCC269, 96CCC371, 97CCC99). They prepared 2-substituted (H, Me, Ph) 4-, 5-, 6-, and 7-nitrobenzoxazoles, which were then reduced to amines (not isolated) and subjected to subsequent nucleophilic substitution with activated enol ethers such as alkoxymethylene derivatives of malonic acid esters and nitrile, 3-oxobutanoic acid esters, pentanedione, or cyanoacetic acid esters to yield aminoethylenes 8. [Pg.194]

When a hydrogen atom is flanked by two carbonyl groups, its acidity is enhanced even more. Table 22.1 thus shows that compounds such as 1,3-dikotoncs (/3-diketoncs). 3-oxo esters (/3-keto esters), and 1,3-diesters are more acidic than water. This enhanced acidity of jS-dicarbonyl compounds is due to the stabilization of the resultant enolate ions by delocalization of the negative charge over both carbonyl groups. The enolate ion of 2,4-pentanedione, for instance,... [Pg.851]

The straightforward construction of substituted pyrone 4 proceeded as follows (see Scheme 6c). Alkylation of the monoanion of 2,4-pentanedione (8) with methyl iodide furnishes 3-methyl-2,4-pentanedione. Conversion of this substance into the corresponding dianion with sodium amide followed by selective carboxylation of the more basic site provides intermediate 7. Pyrone 4 is obtained after cyclization with l,l -carbonyldiimidazole and methylation of the resulting enol with dimethyl sulfate. [Pg.328]

SRNl substitution include ketone enolates,183 ester enolates,184 amide enolates,185 2,4-pentanedione dianion,186 pentadienyl and indenyl carbanions,187 phenolates,188 diethyl phosphite anion,189 phosphides,190 and thiolates.191 The reactions are frequently initiated by light, which promotes the initiating electron transfer. As for other radical chain processes, the reaction is sensitive to substances that can intercept the propagation intermediates. [Pg.1055]

The concept of a diastereoselective Friedel-Crafts alkylation of a-chiral benzyl alcohols was first examined by Bach and coworkers [62, 63]. The initial protocol required stoichiometric amounts of strong Brpnsted acids like HBF4 and was followed by a more valuable methodology in which catalytic amounts of AuC L were employed for the diastereoselective functionalization of chiral benzyl alcohols [64], Beside arenes, allyl silanes, 2,4-pentanediones and silyl enol ethers have been used as nucleophiles. Depending on the diastereodiscriminating group and on the catalyst (Brpnsted or Lewis acid), the authors observed either the syn or the anti diastereoisomer as the major product. [Pg.131]

This procedure for the acetylation of methyl alkyl ketones to form /3-diketones is a modification5 of an earlier procedure, which used boron trifluoride gas as the catalyst.6 3-n-Butyl-2,4-pentanedione has also been prepared by the acetylation of 2-heptanone catalyzed with boron trifluoride gas,7 by the thermal rearrangement of the enol acetate of 2-heptanone,7 and by the alkylation of the potassium enolate of 2,4-pentanedione with n-butyl bromide.8... [Pg.47]

The annulation reaction of bis(trimethylsilyloxy)enol ether 26 with 1,4-pentanedione in the presence of a catalytic quantity of tiimethylsilyltriflate at -50 "C in dry dichloromethane furnishes oxabicyclo[3,2.1]heptanone 27 in 92% yield. Compound 27 is used as starting material for (+)-davanone, a major component of the South Indian plant Artemisia pattens <99T617>. [Pg.151]

Hydrogen Bonding Using NMR A New Look at the 2,4-Pentanedione Keto-Enol Tautomer Experiment 54... [Pg.124]

See other pages where 2,4-pentanedione enolate is mentioned: [Pg.465]    [Pg.220]    [Pg.37]    [Pg.465]    [Pg.220]    [Pg.421]    [Pg.37]    [Pg.762]    [Pg.890]    [Pg.87]    [Pg.10]    [Pg.428]    [Pg.762]    [Pg.33]    [Pg.86]    [Pg.1159]    [Pg.56]    [Pg.97]    [Pg.735]    [Pg.139]   
See also in sourсe #XX -- [ Pg.4 , Pg.11 ]

See also in sourсe #XX -- [ Pg.4 , Pg.11 ]



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