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Dimethylformamide

Dimethylformamide (DMF) decomposes slightly via a process which is catalyzed by strong acids or bases, so such materials should be avoided during purification. A recommended procedure is to use a preliminary drying step with CaS04, MgS04, silica gel, or type 4 A molecular sieves, followed by vacuum distillation and storage over 3 or 4 A molecular sieves. [Pg.70]

dimethylformonide, is a uniquely versotile and powerful solvent with the following general properties  [Pg.773]

Design Institute for Physical Property Data dimethylformamide dimethylsulfoxide I distribution octane number Economic Commission for Europe j European Economic Community i (Communaute Economique Europeenne)... [Pg.501]

Surface heterogeneity may be inferred from emission studies such as those studies by de Schrijver and co-workers on P and on R adsorbed on clay minerals [197,198]. In the case of adsorbed pyrene and its derivatives, there is considerable evidence for surface mobility (on clays, metal oxides, sulfides), as from the work of Thomas [199], de Mayo and co-workers [200], Singer [201] and Stahlberg et al. [202]. There has also been evidence for ground-state bimolecular association of adsorbed pyrene [66,203]. The sensitivity of pyrene to the polarity of its environment allows its use as a probe of surface polarity [204,205]. Pyrene or ofter emitters may be used as probes to study the structure of an adsorbate film, as in the case of Triton X-100 on silica [206], sodium dodecyl sulfate at the alumina surface [207] and hexadecyltrimethylammonium chloride adsorbed onto silver electrodes from water and dimethylformamide [208]. In all cases progressive structural changes were concluded to occur with increasing surfactant adsorption. [Pg.418]

Note that some N-alkyl-formamides such as dimethylformamide, are also liquid,... [Pg.359]

The use of dimethylformamide (b.p. 153°) as a solvent and diluent often increases the yield materially. The vigour of the exothermic reaction which occurs with a relatively reactive aryl hahde is moderated and, furthermore, the dimethylformamide is easily removed from the reaction product since it is water soluble. Aryl hahdes which are inert under the usual Ullmann conditions do not react in the presence of dimethylformamide. [Pg.524]

The experimental conditions for conducting the above reaction in the presence of dimethylformamide as a solvent are as follows. In a 250 ml. three-necked flask, equipped with a reflux condenser and a tantalum wire Hershberg-type stirrer, place 20 g. of o-chloronitrobenzene and 100 ml. of diinethylform-amide (dried over anhydrous calcium sulphate). Heat the solution to reflux and add 20 g. of activated copper bronze in one portion. Heat under reflux for 4 hours, add another 20 g. portion of copper powder, and continue refluxing for a second 4-hour period. Allow to cool, pour the reaction mixture into 2 litres of water, and filter with suction. Extract the solids with three 200 ml. portions of boiling ethanol alternatively, use 300 ml. of ethanol in a Soxhlet apparatus. Isolate the 2 2- dinitrodiphenyl from the alcoholic extracts as described above the 3ueld of product, m.p. 124-125°, is 11 - 5 g. [Pg.528]

The selection of solvents for quantitative work is not easy. Nitro-alkanes are sufficiently inert, but nitronium tetrafluoroborate is poorly soluble in them c. 0-3 %). Nitronium salts react rapidly with acetic anhydride, and less rapidly with acetic acid, A, A -dimethylformamide and acetonitrile, although the latter solvent can be used for nitration at low temperatures. Sulpholan was selected as the most suitable solvent ... [Pg.61]

METHOD 2 Without a doubt, this is the current world favorite for making P2Ps. This method is known as the Wacker oxidation and involves mixing safrole (or any other allylbenzene), palladium chloride, cuprous chloride and dimethylformamide in an oxygen atmosphere to get MD-P2P very quickly and in a totally clean manner [11, 12]. There s also a very nice review in ref. 13. [Pg.60]

The idea is to have everything in place before the oxygen is applied. So, lOOg of safrole is in the addition funnel and stirring around in the reaction flask are 10.6g of PdCU, 60g CuCI and 500mL of aqueous dimethylformamide (made by mixing 62.5mL dH20 and 437,5mL DMF). Dimethylformamide (DMF) is not the same as the watched chemical known as N-methylformamide. [Pg.62]

In a lOOmL round-bottomed flask fitted with a magnetic stirrer is placed a mixture of palladium (II) chloride (89mg, O.Smmol), p-benzoquinone (5.94g, 55mmol) and 7 1 dimethylformamide/water (20mL). To the solution, t-decene [substitute safrole for this compound) (7.0g, 50mmc4) is added in 10 min and the mixture is stirred at room temperature for 7h. The solution is poured into cold 3 normal hydrochloric acid (lOOmL) and extracted with 5 portions of ether. The extracts are combined and washed with three portions of 10% aqueous sodium hydroxide solution and a portion of brine, and then dried After removal of the solvent, the residue is distilled to give 2-decanone [P2P] yield 6.1g (78%). [Pg.73]

Amino-5-nitrothiazole, on treatment with arenesulfonyl halides and dimethylformamide at 140 C, gives (5-nitro-2-thiazolyl)amidme (274) (Scheme 168) (507, 508). The condensation products of the reaction of 2-aminothiazole derivatives with various aldehydes are grouped in Tables... [Pg.98]

The C-S bond in purine derivatives undergoes cleavage under mild conditions by nucleophilic agents such as benzylmercaptan or glutathione in dimethylformamide with a phosphate buffer of pH 6.5 (277). The salt (110) of dithiazolylsulfide heated at 190 C yields the A-4-thiazo-line-2-thione (112) and 2-chlorothiazole (111) (Scheme 56) (278-280). [Pg.405]

If anhydrous dimethylformamide is used as solvent, the reaction is complete within 30 min at room temperature, and the products are generally obtained in high yield. [Pg.276]

The best solvent for this type of polymerization is dimethylformamide. The molecular weight is between 5300 and 5800, and the products have melting points up to 350°C. [Pg.397]

Rotation about the carbon-nitrogen bond is slow in amides The methyl groups of NJ dimethylformamide are nonequivalent because one is cis to oxygen the other cis to hydrogen... [Pg.1236]

See other pages where Dimethylformamide is mentioned: [Pg.27]    [Pg.141]    [Pg.15]    [Pg.54]    [Pg.70]    [Pg.198]    [Pg.278]    [Pg.84]    [Pg.437]    [Pg.8]    [Pg.101]    [Pg.533]    [Pg.836]    [Pg.867]    [Pg.930]    [Pg.223]    [Pg.288]    [Pg.404]    [Pg.453]    [Pg.473]    [Pg.501]    [Pg.510]    [Pg.519]    [Pg.551]    [Pg.592]    [Pg.678]    [Pg.709]    [Pg.819]    [Pg.846]    [Pg.907]    [Pg.973]    [Pg.1088]   
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2-formyl dimethylformamide

4-hydroxyphenyl dimethylformamide

7V,A/-Dimethylformamide

AA-Dimethylformamide

Acetic anhydride-dimethylformamide

Acid chlorides dimethylformamide

Acyl chlorides dimethylformamide

Anion dimethylformamide

Anion interaction dimethylformamide

Aprotic solvents dimethylformamide

Aqueous Dimethylformamide (DMF)

Barium oxide/dimethylformamid

Bases Sodium hydride-Dimethylformamide

Benzoyl chloride-Dimethylformamide

Bis(triphenylphosphoranylidene)ammonium Dicarbonyltrichloro (dimethylformamide)ruthenate(II), Ru(CO)2Cl3(DMF)

Carboxylic acid amid Dimethylformamide)

Carboxylic acid chlorides oxalyl chloride-dimethylformamide

Chemicals dimethylformamide

Chromic acid-dimethylformamide

Chromic anhydride-dimethylformamide

Chromium reagents dimethylformamide

Complexes of Ruthenium(II) from Dimethylformamide

Conversion to Formic Acid and Dimethylformamide

Cyanuric chloride/dimethylformamide

Cyclohexanone reaction with dimethylformamide

Cyclopentadienylsodium, reaction with dimethylformamide-dimethyl

DMF, Dimethylformamide

Diisocyanate Dimethylformamide

Dimethyl sulfoxide Dimethylformamide

Dimethyl sulfoxide and dimethylformamide

Dimethylacylamines s. Dimethylformamide

Dimethylformamide (s. a. under

Dimethylformamide , humic acid

Dimethylformamide , solid-phase

Dimethylformamide Alcohol

Dimethylformamide acetals

Dimethylformamide acetate hydrogen sulfate

Dimethylformamide acid esters

Dimethylformamide acidity

Dimethylformamide addition

Dimethylformamide adducts, structure

Dimethylformamide aldehyde synthesi

Dimethylformamide aldehyde synthesis

Dimethylformamide alkyl group transfer

Dimethylformamide as medium

Dimethylformamide as reagent

Dimethylformamide as solvent

Dimethylformamide as solvent for reactions of triphenylphosphine

Dimethylformamide azeotropic distillation

Dimethylformamide boiling point

Dimethylformamide calculations

Dimethylformamide complexes

Dimethylformamide decomposition

Dimethylformamide dialkyl acetals

Dimethylformamide dialkylacetals

Dimethylformamide diethyl acetal

Dimethylformamide diethyl acetal, reactions

Dimethylformamide dimethyl

Dimethylformamide dimethyl hydroxy acids

Dimethylformamide dimethylacetal

Dimethylformamide dineopentyl acetal

Dimethylformamide dispersion

Dimethylformamide electrospinning

Dimethylformamide ethylene ketal

Dimethylformamide hazards

Dimethylformamide hydrolysis

Dimethylformamide liquid structure

Dimethylformamide liquid temperature range

Dimethylformamide metabolism

Dimethylformamide oxidation

Dimethylformamide penetration

Dimethylformamide penetration enhancer

Dimethylformamide physical properties

Dimethylformamide polymerization

Dimethylformamide proton spectrum

Dimethylformamide purification

Dimethylformamide reaction

Dimethylformamide reducing property

Dimethylformamide reduction, thermal

Dimethylformamide refractive index

Dimethylformamide ring closures with

Dimethylformamide solution

Dimethylformamide special

Dimethylformamide spectrophotometry

Dimethylformamide startg

Dimethylformamide structure

Dimethylformamide synthesis

Dimethylformamide treatment

Dimethylformamide with zinc

Dimethylformamide, checking purity

Dimethylformamide, chemical structures

Dimethylformamide, dimethyl acetal

Dimethylformamide, halogenation

Dimethylformamide, molecular structure

Dimethylformamide, occupational exposure

Dimethylformamide, proton transfer

Dimethylformamide, reaction with

Dimethylformamide, reaction with dimethyl sulfate

Dimethylformamide, reaction with dimethyl sulfate and cyclohexanone

Dimethylformamide, reaction with methyl sulfate

Dimethylformamide, restricted rotation

Dimethylformamide, solvent

Dimethylformamide, solvent properties

Dimethylformamide, solvent system

Dimethylformamide, solvent system evaporation

Dimethylformamide-Oxalyl chloride

Dimethylformamide-Phosphoryl chloride

Dimethylformamide-Sodium acetate

Dimethylformamide-dimethyl sulfate

Dimethylformamide-dimethyl sulfate complex, preparation

Dimethylformamide/dimethylsulfoxide

Diphosphorus tetraiodide reaction with dimethylformamide

Esters from dimethylformamide acetals

Ferric chloride-Dimethylformamide

Formates, alkyl chloroanhydride synthesis dimethylformamide adducts

Formylation dimethylformamide acetal

Formylation with Dimethylformamide

Formylation, with dimethylformamid

Formylations oxalyl chloride-dimethylformamide

IV.A -Dimethylformamide

Ketones, preparation by alkylation reaction with dimethylformamide and

Lithium chloride-Dimethylformamide

MA-Dimethylformamide

Medicines) Dimethylformamide

Metal ions dimethylformamide

N, A-dimethylformamide

N,/V-Dimethylformamide

N,TV-Dimethylformamide

N-dimethylformamide

N.JV-dimethylformamide

NJV-dimethylformamide

Oxalyl dimethylformamide

Phenyl dichlorophosphate dimethylformamide

Phosphine, dichlorophenyladducts dimethylformamide

Phosphines dimethylformamide

Phosphorus nitrile chloride dimethylformamide

Phosphorus oxide chloride-dimethylformamide

Phosphorus oxychloride, reaction with dimethylformamide and cyclohexanone

Phosphorus trichloride-Dimethylformamide

Polar dimethylformamide

Polar dissolvent dimethylformamide

Potassium fluoride in dimethylformamide

Reaction with dimethylformamide acetals

Rhenium complexes dimethylformamide

Silver complexes dimethylformamide

Sizing dimethylformamide

Sodium azide-Dimethylformamide

Sodium benzoate/dimethylformamide

Sodium hydride-Dimethylformamide

Solvent extraction dimethylformamide

Solvent purification dimethylformamide

Subject dimethylformamide

Sulfonamides, chloroadducts dimethylformamide

Sulfur monochloride, reaction with dimethylformamide

Sulfuryl chloride dimethylformamide

Thionyl chloride dimethylformamid

Thionyl chloride-dimethylformamide

W-dimethylformamide, DMF

With dimethylformamide and phosphoryl

With dimethylformamide and phosphoryl chloride

Zinc borohydride-Dimethylformamide

Zinc-Dimethylformamide

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