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Phthalimide, reactions

The Gabriel-Colman reaction can be used to prepare isoquinoline-1,4-diols regioselectively by the use of unsymmetrically substituted phthalimides. Reaction of phthalimide 32 with sodium ethoxide in ethanol provides a 1 7 mixture of 33 34. It was rationalized that attack at carbon b is preferred because of its greater steric accessibility and diminished electron density compared to carbon a. In spite of the reasonable regioselectivity observed m this reaction, the Gabriel-Colman reaction has not been substantially investigated in the preparation of non-symmetrically substituted isoquinolines. [Pg.419]

Another synthesis of phenylalanine from malonic ester, in which Gabriel s phthalimide reaction is also made use of, is described by Sorensen, namely,... [Pg.40]

Allylic amines. With phthalimide reaction, high yields of the AJ-allylated phtht be removed with methylamine in methanol... [Pg.384]

It is prepared by the action of sodium hydroxide and sodium hypochlorite on phthalimide (Hofmann reaction). When heated with soda lime it gives aniline. [Pg.36]

When treated with alkaline hypochlorite solution anthranilic acid is obtained. This reaction, the first stage in the indigo synthesis, is the most important commercial outlet for phthalimide. [Pg.312]

Phthalcin reaction. Fuse together very gently in a dry test-tube 01 g. of phthalimide, O l g. of phenol and 2 drops of cone. HjSO, Cool, add waier and then NaOH solution in excess. A red coloration is produced which is decolorised by acids. (Note. Succinimide gives no definite coloration in these circumstances.)... [Pg.363]

The independent preparation of potassium phthabmide (from a solution of phthalimide in absolute ethanol and potassium hydroxide in 75 per cent, ethanol) may be avoided in many cases by boiling phthalimide with the halide in the presence of anhydrous potassium carbonate. The N-substituted phthalimide (I) is frequently cleav with difficulty this is often facilitated by reaction with hydrazine hydrate to give an intermediate product, which is easily decomposed by hydrochloric acid to 3deld the insoluble hydrazide of phthaUc acid (II) and the primary amine (III) ... [Pg.560]

Anthranilic acid. This substance, the ortho amino derivative of benzoic acid, may be conveniently prepared by the action of sodium hypobromite (or sodium hypochlorite) solution upon phthalimide in alkaline solution at 80°. The ring in phthalimide is opened by hydrolysis to phthalamidic acid and the latter undergoes the Hofmann reaction (compare Section 111,116) ... [Pg.754]

Phthalonitrile may be prepared by the following series of reactions from phthalimide —... [Pg.983]

Phthalimide has been piepaied in 95% yield by heating the com pound foimed on reaction of phthalic anhydiide (Section 20 5) with excess ammo nia This compound has the moleculai foimula C8H10N2O3 What is its stiuctuie ... [Pg.862]

Each of the following dihaloalkanes gives an N (haloalkyl)phthahmide on reaction with one equivalent of the potassium salt of phthalimide Write the structure of the phthahmide denvative formed m each case and explain the basis for your answer... [Pg.963]

Carboxyhc acids react with aryl isocyanates, at elevated temperatures to yield anhydrides. The anhydrides subsequently evolve carbon dioxide to yield amines at elevated temperatures (70—72). The aromatic amines are further converted into amides by reaction with excess anhydride. Ortho diacids, such as phthahc acid [88-99-3J, react with aryl isocyanates to yield the corresponding A/-aryl phthalimides (73). Reactions with carboxyhc acids are irreversible and commercially used to prepare polyamides and polyimides, two classes of high performance polymers for high temperature appHcations where chemical resistance is important. Base catalysis is recommended to reduce the formation of substituted urea by-products (74). [Pg.452]

Methyl chloride can be converted iato methyl iodide or bromide by refluxing ia acetone solution ia the presence of sodium iodide or bromide. The reactivity of methyl chloride and other aUphatic chlorides ia substitution reactions can often be iacteased by usiag a small amount of sodium or potassium iodide as ia the formation of methyl aryl ethers. Methyl chloride and potassium phthalimide do not readily react to give /V-methy1phtha1imide unless potassium iodide is added. The reaction to form methylceUulose and the Williamson synthesis to give methyl ethers are cataly2ed by small quantities of sodium or potassium iodide. [Pg.513]

Propenylphenoxy compounds have attracted much research. BMI—propenylphenoxy copolymer properties can be tailored through modification of the backbone chemistry of the propenylphenoxy comonomer. Epoxy resins may react with propenylphenol (47,48) to provide functionalized epoxies that may be low or high molecular weight, Hquid or soHd, depending on the epoxy resin employed. Bis[3-(2-propenylphenoxy)phthalimides] have been synthesized from bis(3-rutrophthalimides) and o-propenylphenol sodium involving a nucleophilic nitro displacement reaction (49). They copolymerize with bismaleimide via Diels-Alder and provide temperature-resistant networks. [Pg.29]

In a similar manner to the formation of pyridazines from AT-aminopyrroles, cinnolines or phthalazines are obtainable from the corresponding 1-aminooxindoles or 2-amino-phthalimides. If the relatively inaccessible 1-aminooxindoles are treated with lead tetraacetate, mercuric acetate, r-butyl hypochlorite (69JCS(C)772) or other agents, cinnolones are formed as shown in Scheme 105. The reaction was postulated to proceed via an intermediate... [Pg.53]

Imides (e.g. phthalimide) can be purified by conversion to their potassium salts by reaction in ethanol with ethanolic potassium hydroxide. Hie imides are regenerated when the salts are hydrolysed with dilute acid. Like amides, imides readily crystallise from alcohols and, in some cases (e.g. quinolinic imide), from glacial acetic acid. [Pg.67]

In a typical experiment, triethylene glycol was treated with two equivalents of sodium toluenesulfonamide in dry DMF solution. After 6 h at reflux, the solution was distilled and product obtained by a standard work-up procedure. By this procedure, 9 was obtained in about 10% yield. The transformation is illustrated below as Eq. (4.10). Note also that Vogtle and his coworkers have also utilized phthalimide as a source of nitrogen in the preparation of such azacrown precursors as H2N(CH2CH2 0)2CH2CH2NH2 In such reactions, a standard hydrazine cleavage was used to remove the phthaloyl residue. [Pg.161]

Is the second step of the overall reaction for R=Me (N-methylphthalimide + hydrazine —> phthalimide hydrazide + methylamine) exothermic or endothermic Will higher temperatures accelerate or inhibit the reaction Is the structure drawn above for phthalimide hydrazide its lowest-energy form or are either the imine or diimine tautomers preferred Compare energies for the hydrazide and imine and diimine tautomers. Examine the geometry of phthalimide hydrazide and any low energy tautomer, and draw the Lewis structure(s) that best describes it. Can your Lewis structures account for the energy differences Examine electrostatic potential maps for all three molecules. Which molecule(s) are stablized by favorable electrostatic interactions Which are destabilized Can this help explain the energy differences Elaborate. [Pg.206]

The Gabriel-Colman reaction has been used to prepare 3-alkyl isoquinoline 1,4-diols. Phthalimides 8 and 9 rearrange as expected when treated with alkoxides. Further treatment with sodium ethoxide results in decarboxylation and the expected isoquinolinone 1,4-diols 12 and 13. [Pg.416]

Analogous, but slightly different, is the treatment of the acid-base equilibria and the basic hydrolysis rates of the phthalimids (19). In both of these cases, the two paths to the reaction site are equivalent, hence pi and po of Eq. (3) are equal, and the equation reduces to ... [Pg.253]

The first question can be answered relatively simply (although not completely exactly) from the available factual material. If the pK value of the lactam is taken as a criterion, the border of reactivity lies at about pK 12. Valerolactam and caprolactam react just noticeably with diazomethane (yields 14 and 7%). However, it should be noticed that catalysts are frequently necessary in order to initiate the reaction (methanol, water, aluminum isopropylate," fluoboric acid " ). For example, phthalimide does not react at all with diazomethane in ether, but a smooth reaction occurs if some methanol is added. [Pg.251]

Phthalimidobutyl)-2,3,4,4u,5,6-hexahydro-l//-pyrazino[l,2-u]quino-line was obtained in the reaction of 2,3,4,4u,5,6-hexahydro-l//-pyrazino[l,2-u]quinoline and A-(4-bromobutyl)phthalimide in boiling MeCN in the presence of K2CO3 (97MIP12). 2,3,4,4u,6,7-He-xahydro-l//-pyrazino[l,2-ujquinolines were N-alkylated with 3-dimethylaminomethyl-l//-pyrrolo[2,3-6]pyridine and a mixture of l//-pyrrolo[2,3-6]pyridine and 37% aqueous H2CO in aqueous AcOH in the presence of NaOAc (96USP5576319). 3-[3-Substituted 2-propen-l-yl]-2,3,4,4u, 5,6-hexahydro-l//-pyrazino[l,2-u]qui-... [Pg.306]

The reaction of potassium phthalimide 1 with an alkyl halide 2 leads to formation of a N-alkyl phthalimide 3/ which can be cleaved hydrolytically or by reaction with hydrazine (Ing-Manske variant) to yield a primary amine 5. This route owes its importance as a synthetic method to the fact that primary amines are prepared selectively, not contaminated with secondary or tertiary amines. [Pg.130]

The two-step procedure includes formation of a N-substituted phthalimide 3, and its subsequent cleavage to the primary amine 5. Phthalimide (which can be obtained from reaction of phthalic acid with ammonia) shows NH-acidity, since the negative charge of the phthalimide anion (the conjugated base) is stabilized... [Pg.130]

The Gabriel synthesis is often carried out by heating the starting materials without a solvent for several hours at a temperature of 150 °C or higher. The use of solvents like dimethylformamide can lead to better results. In a number of solvents—e.g. toluene—the phthalimide is insoluble the reaction can however be conducted in the presence of a phase transfer catalyst." ... [Pg.132]

Finally the aminoquinoline bearing a primary amine at the terminal carbon atom of the side chain is itself an effective antimalarial drug. Ring opening of 2-methyltetrahydrofuran by bromine gives the dibromide, 99. The primary halide is sufficiently less hindered so that reaction with potassium phthalimide affords exclusively the product of displacement of that halogen (100). Alkylation of the aminoquinoline with lOO affords the secondary amine, 101. Removal of the phthalimide group by means of hydrazine yields primaquine (102). ... [Pg.346]

Pi peridinobenzimidazole also serves as starting material for the antipsychotic agent halopemide (69). In the absence of a specific reference, one may speculate that the first step involves alkylation with bromochloro-ethane to give halide The chlorine may then be converted to the primary amine by any of several methods such as reaction with phthalimide anion followed by hydrazinolysis. Acylation with j -fluorobenzoyl chloride then gives the desired product. [Pg.174]

Another alternative for preparing a primary amine from an alkyl halide is the Gabriel amine synthesis, which uses a phthalimide alkylation. An imide (—CONHCO—) is similar to a /3-keto ester in that the acidic N-H hydrogen is flanked by two carbonyl groups. Thus, imides are deprotonated by such bases as KOH, and the resultant anions are readily alkylated in a reaction similar to the acetoacetic ester synthesis (Section 22.7). Basic hydrolysis of the N-alkylated imide then yields a primary amine product. The imide hydrolysis step is analogous to the hydrolysis of an amide (Section 21.7). [Pg.929]

The polymeric resin used for Merrifield solid-phase peptide synthesis (Section 26.8) is prepared by treating polystyrene with iV-(hydroxymethyl) phthalimide and trifluoromethanesulfonic acid, followed by reaction with hydrazine. Propose a mechanism for both steps. [Pg.1224]


See other pages where Phthalimide, reactions is mentioned: [Pg.29]    [Pg.29]    [Pg.79]    [Pg.185]    [Pg.581]    [Pg.126]    [Pg.439]    [Pg.226]    [Pg.100]    [Pg.252]    [Pg.50]    [Pg.895]    [Pg.252]    [Pg.268]    [Pg.131]   
See also in sourсe #XX -- [ Pg.361 , Pg.363 ]




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Alkyl halide reaction with phthalimide ion

Epoxides, reaction with phthalimide

Halides, alkyl, reaction with phthalimide

Halides, aryl reaction with potassium phthalimide

Hydrazides reaction with phthalimides

Hydrazine reaction with alkyl phthalimides

Ketones, reaction with phthalimide

Lactones, reaction with phthalimides

Methylamine, reaction with phthalimides

Mitsunobu reaction with phthalimide

Phthalimide

Phthalimide Mitsunobu reaction, alcohol-amine

Phthalimide, N-aminooxidation reaction with alkenes

Phthalimide, alkyl, reaction with

Phthalimide, alkyl, reaction with hydrazine

Phthalimides

Phthalimides Hofmann reaction

Phthalimides reaction with allylic esters

Phthalimides reaction with hydrazine

Phthalimides, Mitsunobu reaction

Phthalimides, alkylation reactions

Phthalimides, reaction with

Phthalimides, reaction with alcohols

Phthalimides, reaction with amines

Phthalimides, reaction with epoxides

Phthalimides, reaction with halides

Phthalimides, reaction with ketones

Phthalimids

Reaction CXXV.—Action of Alkyl Halides on Phthalimide (Potassium Salt)

Reaction with potassium phthalimide

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