Big Chemical Encyclopedia

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

Articles Figures Tables About

2- Pyrrolidones reaction

The carbonylation of nitrobenzene to phenyl isocyanate is catalysed by [RhCl(CO)2]2 + L (L=MoCl6 or py.H+Cl- >), [RhH(CO)(PPh3)3], = and PdCl2-pyMe+ Carbonylation of allylic substrates has also been studied in detail rhodium phosphine complexes [e.g., RhCl(PPh3)s] are particularly useful for the synthesis of AT-alkyl-2-pyrrolidones [reactions (6)], whereas the carbonylations of allylic alcohols to vinylacetate esters [reaction (7)] are best carried out with [PdCl2(PAr3)a]10MCl2 (M=Sn or Ge). ... [Pg.327]

Ring closure resulting from attack of a heteroatom on a carboxyl group or its equivalent is merely a case of intramolecular esterification or amide formation. The y-butyrolactones or pyrrolidones obtained from such reactions are usually regarded as the province of aliphatic chemistry, so only a few examples are offered by way of illustration in Scheme 15. [Pg.98]

Thermolysis of the aziridine (446) in the presence of diphenylketene gave a mixture of the pyrrolidone (447 minor product) and the oxazolidine (448 major product). In this instance the preferential addition to the C=0 bond is explained in terms of steric effects (72CC199). Similar addition to diphenylacetaldehyde takes place with the same orientation and the oxazolidine (448a) was obtained. When the reaction of the aziridine with the aldehyde was carried out in the presence of hydrogen selenide a selenazolidine was obtained (72BSB295). [Pg.154]

Alcoholic potassium hydroxide or sodium hydroxide are normally used to convert the halohydrins to oxiranes. Other bases have also been employed to effect ring closure in the presence of labile functional groups such as a-ketols, e.g., potassium acetate in ethanol, potassium acetate in acetone or potassium carbonate in methanol.However, weaker bases can lead to solvolytic side reactions. Ring closure under neutral conditions employing potassiunT fluoride in dimethyl sulfoxide, dimethylformamide or A-methyl-pyrrolidone has been reported in the patent literature. [Pg.17]

During a study of azonitrones (70), Forrester and Thomson showed that reaction with toluene-p-sulfinic acid resulted in nitrogen evolution and formation of the hydroxamic acid (66) together with the pyrrolidone (71) and the amidine (72). These workers suggested the following reaction course. Although the yield of hydroxamic acid was high, the method is not likely to be of preparative value. [Pg.217]

A 250-mL, three-necked, round-bottomed flask equipped with stirrer and distillation head suitable for vacuum distillation is filled with 120 g of freshly distilled 2-pyrrolidone. The reaction mass is heated under nitrogen to 80° C. Flake potassium hydroxide (3.4 g) is then added. The water formed is rapidly distilled from the flask under 1 mbar pressure. The hot solution is then rapidly... [Pg.178]

Aprotic polar solvents have to be used for several reasons. They are often good solvents for both monomers (including phenolates) and amorphous polymers. In addition, they can also stabilize the Meisenheimer intermediates. Common aprotic polar solvents, such as DMSO, /V,/V-dimcthyl acetamide (DMAc), DMF, N-methyl pyrrolidone (NMP), and cyclohexylpyrrolidone (CHP) can be used. Under some circumstances, very high reaction temperature and boiling point solvents such as sulfolane and diphenyl sulfone (DPS) have to be used due to the poor reactivity of the monomers or poor solubility of the resulting, possibly semicrystalline polymers, as in the PEEK systems. [Pg.338]

Anionic copolymerization of lactams presents an interesting example of copolymerization. Studies of the copolymerization of a-pyrrolidone and e-caprolactam showed that a-pyrrolidone was several times more reactive than e-caprolactam at 70 °C, but became less reactive at higher temperatures due to depropagation210 2U. By analyzing the elementary reactions Vofsi et al.I27 concluded that transacylation at the chain end occurred faster than propagation and that the copolymer composition was essentially determined by the transacylation equilibrium and the acid-base equilibrium of the monomer anion together with the usual four elementary reactions of the copolymerization. [Pg.18]

Alcohol functions have also been introduced via hydrosilylation reactions, for example, the reaction of T8[OSiMe2H]8 with allyl alcohol and allyloxy ethanol (Table 19). In the first case, it has been postulated that the compound T8[OSiMe2 (CH2)30H]8 is not very stable due to back-biting of the -OH groups on the silicon corners (Figure 31). Nevertheless, it reacts with polymers such as polyvinyl pyrrolidone to give polymer hybrids (Table 19, entries 4 and 5). [Pg.55]

Poly(ether ether ketone), known as PEEK, is a crystalline high-temperature thermoplastic. It is produced by a step (condensation) process (see Chapter 2) in which 4,4-difluorobenzophenone is reacted with the anion of hydro-quinone. This reaction is carried out in a high boiling point polar solvent, such as A -cyclohexyl-2-pyrrolidone (1.13). [Pg.17]

Bromination of 2 with pyrrolidone-(2)-hydrotribromide (PHT) does not produce any traces of compound 4, even in the presence of chloride ion, however other side reaction can be observed. Just a small excess of PHT produces the higher brominated compounds 5 and fi ... [Pg.81]

Iron porphyrins (containing TPP, picket fence porphyrin, or a basket handle porphyrin) catalyzed the electrochemical reduction of CO2 to CO at the Fe(I)/Fe(0) wave in DMF, although the catalyst was destroyed after a few cycles. Addition of a Lewis acid, for example Mg , dramatically improved the rate, the production of CO, and the stability of the catalyst. The mechanism was proposed to proceed by reaction of the reduced iron porphyrin Fe(Por)] with COi to form a carbene-type intermediate [Fe(Por)=C(0 )2, in which the presence of the Lewis acid facilitates C—O bond breaking. " The addition of a Bronsted acid (CF3CH2OH, n-PrOH or 2-pyrrolidone) also results in improved catalyst efficiency and lifetime, with turnover numbers up to. 750 per hour observed. ... [Pg.258]

We have also shown ( 8) that other bases stronger than CH-CX) (pK. 4.75) catalyse the decomposition of N -nitroso-2-pyrrolidone at o C. With the exception of imidazole, these reactions follow uncomplicated second order kinetics (Rate = kp[Substrate][Base]) and only products of deamination (hydrolysisT are obtained. Generally, values increase with the base strength of the catalyst and fit tne Br/e(nsted relationship withes 0.66. However, the absence of significant catalysis by sterically hindered bases 2,6-lutidine), the strong catalysis by imidazole relative to HPOi (k2(Imidazole)/k2(HP0J ) = 83) and by hydroxide ion relative to... [Pg.106]

Use of the relatively small cyclopropane ring drastically reduces the potential for deleterious steric bulk effects and adds only a relatively small lipophilic increment to the partition coefficient of the drug. One of the clever elements of the rolicyprine synthesis itself is the reaction of d,l tranylcypromine (67) with L-5-pyrrolidone-2-carboxylic acid (derived from glutamic acid) to form a highly crystalline diastereomeric salt, thereby effecting resolution. Addition of dicyclohexylcarbodiimide activates the carboxyl group to nucleophilic attack by the primary amine thus forming the amide rolicyprine (68). [Pg.51]

A more highly substituted pyrrolidone, doxapram, shows activity as a respiratory stimulant. Preparation of this agent involves an interesting rearrangement, which in effect results in a ring exchange reaction. Alkylation of the anion from diphenylacetonitrile with the chloropyrrolidine 14 affords 15. Hydrolysis of the nitrile function leads to the... [Pg.236]

The heteroatom-assisted Diels-Alder reaction has emerged as an extremely powerful method for the preparation of complex heterocycles. In several cases, such reactions with TADs are described. For example, the reaction of vinyl pyrrolidone 594 with MTAD provides a 7 2 mixture of diastereomers 595 and 596 in 95% combined yield, showing only low face selectivity (Equation 88) <2005JOC5221>. [Pg.449]

A useful palladium-promoted reaction on an intact pyrrolidone is illustrated in Scheme 27 in which a 1-vinyl derivative is arylated to give both 1-and 2-isomers.55 Compounds of type 24 may prove to be useful precursors for the synthesis of pharmacologically valuable 2-arylethylamines. A related palladium-catalyzed process is described in the section on furans. (see Eq. 14 in Section IV,B,1). [Pg.334]

Pyrrolidones have also been prepared59,60 by cycloaddition reactions of monohaptoallyl derivatives of (dicarbonyl)cyclopentadienyliron61 and related compounds (Scheme 30). Processes of this type provide examples of a... [Pg.335]

As reported by Padwa and coworkers, exposing a suitable nitrofuran precursor to microwave irradiation in l-methyl-2-pyrrolidone (NMP) in the presence of 2,6-luti-dine catalyst provided l,4-dihydro-2H-benzo[4,5]furo[2,3-c]pyridin-3-one as the major product in 36% yield (Scheme 6.236) [419]. In contrast, under thermal conditions, removal of the tert-butyl group was observed as the major reaction pathway. [Pg.255]

For example, many microwave-assisted solid-phase coupling reactions utilize l-methyl-2-pyrrolidone (NMP) or 1,2-dichlorobenzene (DCB) as the reaction solvent. The main reason for this is the high thermal stabilities of these solvents and their... [Pg.293]

See other pages where 2- Pyrrolidones reaction is mentioned: [Pg.46]    [Pg.331]    [Pg.226]    [Pg.259]    [Pg.188]    [Pg.31]    [Pg.108]    [Pg.120]    [Pg.259]    [Pg.188]    [Pg.146]    [Pg.150]    [Pg.135]    [Pg.63]    [Pg.140]    [Pg.335]    [Pg.336]    [Pg.62]    [Pg.132]    [Pg.135]    [Pg.138]    [Pg.151]    [Pg.152]    [Pg.153]    [Pg.184]    [Pg.187]    [Pg.211]    [Pg.243]   
See also in sourсe #XX -- [ Pg.14 , Pg.560 , Pg.561 ]



SEARCH



Pyrrolidon

Pyrrolidone

Pyrrolidones

© 2024 chempedia.info