PREPARATION OF ACID DERIVATIVES

RCOC1 + H — RCHO + Cl See Section 16.3 for preparation of acid derivatives. [Pg.317]

Naphihalene-2-sulphonic acid crystallizes with 3H2O, m.p. 83 C. It is also used for the preparation of nitro-derivatives. [Pg.269]

One of the chief uses of sulphanilic acid is in the preparation of coloured derivatives of the methyhorange type (p. 214). [Pg.180]

Aliphatic and aromatic acids, simple and substituted, vary con siderably in their properties, and no one reaction for the preparation of crystalline derivatives is general. The following are recommended as most promising. [Pg.349]

D) No general reaction can be cited for the preparation of crystalline derivatives of Class (iii). Triphenylamine, when nitrated in acetic acid with fuming nitric acid, gives tri-/>-nitrophenylamine, m.p. 280°. The presence of substituents in the phenyl groups may however complicate or invalidate nitration. [Pg.379]

This reaction is useful in the preparation of anionic derivatives from the chlorides when the nucleophilic displacement route is unsatisfactory. Even weak acids, eg, phenols, mercaptans, and cycHc nitrogen compounds, can be made to undergo reaction with triorganotin hydroxides or bisoxides if the water of reaction is removed a2eotropicaHy as it forms. [Pg.70]

Silver(I) triflate is widely applied to the preparation of various derivatives of triflic acid, both covalent esters [66] and ionic salts For example, it can be used for the in situ generation of iodine([) triflate, a very effective lodinatmg reagent for aromatic and heteroaromatic compounds [130] (equations 65 and 66)... [Pg.965]

Proceeding from 5 -0-acetylazauridine (80), a mixture of 2 - and 3 -monophosphates (81, 82) was prepared by phosphorylation with polyphosphoric acid, and these were converted into the 2, 3 -cyclic phosphate (83). From the 2, 3 -0-isopropylidene derivative of 3-methyl-6-azauridine the 5 -phosphate was prepared by treatment with cyanoethylphosphate and the corresponding diphosphate from its morpholidate through the action of phosphoric acid. ° Furthermore, a diribonucleoside phosphate (85) with a natural 3 -5 internucleotide linkage was prepared from 6-azauridine, The starting material for the preparation of such derivatives was 5 -0-acetyl-2 -0 -tetrahydro-pyranyluridine-3 -phosphate (84) which was condensed with di-G-acetylazauridine (86) or with 2b3 -0-isopropylidene-6-azauridine (76) with the aid of dicyclohexylcarbodiimide. ... [Pg.218]

The preparation of purine derivatives substituted at the C-2 position via amine displacement of a halogen is known as a difficult reaction step requiring several days of reaction time. However, Al-Obeidi and coworkers have recently prepared 2,6,9-trisubstituted purines on soUd-phase by employing a synthetic route in which the critical step was performed with microwave irradiation (Fig. 37) [62]. PS resin-bound 2-iodosubstituted purine was treated with diethanolamine or propanolamine in NMP with microwave irradiation at 200 °C for 30 min. Trifluoroacetic acid-mediated cleavage resulted in the 2-amino substituted purines in 45-59% yields and 77-89% purities. [Pg.119]

Two preparations of diesters of phosphonous acid have been reported, - One of these, which claims to be the first preparation of these derivatives, involves the reaction of ammonium hypophosphite with triaikylsilylamines to give bis(trialkylsilyl) esters (127) in excellent yield. These compounds are extremely reactive, e.g. they are spontaneously inflammable in air. Dialkyl phosphonites (128) have also been prepared by the reduction of... [Pg.91]

From a commercial viewpoint the most important compounds of this class are the 3,3-(bisindol-3-yl)phthalides. The first synthesis47 involved Route B as described in Scheme 7, in which a second indole derivative condenses with the indolylbenzoylbenzoic acid in acetic anhydride. However, for the preparation of symmetrical derivatives it has been shown61 that a one-pot process, avoiding isolation of the intermediate and use of aluminum chloride, is more convenient. [Pg.107]

A very attractive method for the preparation of nitroalkenes, which is based on the reaction with NO, has been reported. Treatment of alkenes at ambient pressure of nitrogen monoxide (NO) at room temperature gives the corresponding nitroalkenes in fairly good yields along with P-nitroalcohols in a ratio of about 8 to 2. The nitroalcohol by-products are converted into the desired nitroalkenes by dehydration with acidic alumina in high total yield. This simple and convenient nitration procedure is applied successfully to the preparation of nitroalkenes derived from various terminal alkenes or styrenes (Eq. 2.27).53 This process is modified by the use of HY-zeolites instead of alumina. The lack of corrosiveness and the ability to regenerate and reuse the catalyst make this an attractive system (Eq. 2.28).54... [Pg.13]

Despite the many simple methods for preparation of carboxylic esters and thioesters, in some instances, use of 1-acylbenzotriazoles 915 as O and S acylating agents may be advantageous. For example, easy to prepare salicylic acid derivative 941 reacts with cyclopentanol under microwave irradiation to give 92% yield of cyclopentyl salicylate in 10 min <2006JOC3364>. In another example, L-phenylalanine derivative 942 reacts with benzyl mercaptan... [Pg.105]

A convenient method was developed for the synthesis of 4-amino-3-furoxancarboxylic acid azide, which is a universal synthon for the preparation of furoxan derivatives 320 (Scheme 81). This method was used for the synthesis of new azo-, azoxy-, azido-, cyano-, nitro-, carbonylamino-, and hydroxylamino-substituted furoxan derivatives that are difficult to prepare using alternative procedures <2003RCB1822>. [Pg.379]

In some cases, the forms in which the organic materials are present are not easily separated or identified. Some chemical pretreatment is necessary before the analytical procedures can be used. These pretreatments may include the preparation of volatile derivatives for use in gas chromatography, or the splitting of a large and otherwise intractable molecule, as in the hydrolysis of proteins to their constituent amino acids. [Pg.375]

Although anthraquinone is the starting point for the preparation of many derivatives, involving substitution and replacement reactions, certain compounds are obtained directly by varying the components in the above synthesis. Thus, for example, replacement of benzene with methylbenzene (toluene) leads to the formation of 2-methylanthraquinone. A particularly important variation on the phthalic anhydride route is the synthesis of 1,4-dihydroxyanthraquinone (6.6 quinizarin) using 4-chlorophenol with sulphuric acid and boric acid as catalyst (Scheme 6.3). The absence of aluminium chloride permits hydrolysis of the chloro substituent to take place. [Pg.281]

Option A involves preparation of triaminotriarylmethane derivatives and their subsequent reaction with aromatic amines in the presence of acidic catalysts. [Pg.543]

Procedure 10.1 Preparation of dansyl derivatives of amino acids for sub e quest separation by thin layer chromatography... [Pg.360]

Big Chemical Encyclopedia

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