Amine-Based Methods

Different strategies in the solution are described in the literature for the preparation of CSD precursors, where the prominence of the type of chemicals transcends the former grouping of solution methods. In general, but especially in the case of complex oxide compositions, neither of them can be used alone to obtain the liquid precursor due to difficulties in finding available metal reagents of the same family (e.g., alkoxides, carboxylates, and p-diketonates) for all the cations involved in the system. Therefore, a combination of several approaches is used to stabilize all the metal reagents in a common and stable solution. Some of these methods are shown here. They are divided considering the type of precursor used to obtain a stable solution, more than the traditional classification of solution methods shown above. Seven major solution processes are explained next alkoxide-based methods, carboxylate- and p-diketone-based methods, Pechini methods, diol routes, amine-based methods, polymer-assisted methods, and aqueous solution-gel methods. 

Hydrolysis of a sulphonamide. Mix 2 g. of the sulphonamide with 3-5 ml. of 80 per cent, sulphuric acid in a test-tube and place a thermometer in the mixture. Heat the test-tube, with frequent stirring by means of the thermometer, at 155-165° until the solid passes into solution (2-5 minutes). Allow the acid solution to cool and pour it into 25-30 ml. of water. Render the resulting solution alkaline with 20 per cent, sodium hydroxide solution in order to liberate the free amine. Two methods may be used for isolating the base. If the amine is volatile in steam, distil the alkaline solution and collect about 20 ml. of distillate extract the amine with ether, dry the ethereal solution with anhydrous potassium carbonate and distil off the solvent. If the amine is not appreciably steam-volatile, extract it from the alkaline solution with ether. The sulphonic acid (as sodium salt) in the residual solution may be identified as detailed under 13. 

The most common method of resolution uses an acid-base reaction between a racemic mixture of chiral carboxylic acids (RC02H) and an amine base (RNH2) to yield an ammonium salt. 

To understand how this method of resolution works, let s see what happens when a racemic mixture of chiral acids, such as (+)- and (-)-lactic acids, reacts with an achiral amine base, such as methylamine, CH3NH2. Stereochemically, the situation is analogous to what happens when left and right hands (chiral) pick up a ball (achiral). Both left and right hands pick up the ball equally well, and the products—ball in right hand versus ball in left hand—are mirror images. In the same way, both ( H- and (-)-lactic acid react with methylamine equally... 

PVP, a water soluble amine-based pol5mer, was found to be an optimum protective agent because the reduction of noble metal salts by polyols in the presence of other surfactants often resulted in non-homogenous colloidal dispersions. PVP was the first material to be used for generating silver and silver-palladium stabilized particles by the polyol method [231-233]. By reducing the precur-sor/PVP ratio, it is even possible to reduce the size of the metal particles to few nanometers. These colloidal particles are isolable but surface contaminations are easily recognized because samples washed with the solvent and dried in the air are subsquently not any more pyrophoric [231,234 236]. 

Improved high-pressure liquid chromatography (HPLC) methods have been developed for the analysis of quaternary salt type corrosion inhibitors in brine waters [400]. However, these methods are not suitable for imidazolines and amido-amines. A method based on fluorescence detection has been described for the quantitative analysis of the imidazoline- and amido-amine-type corrosion inhibitors in both oil field water and crude oil samples by HPLC [1174]. 

Atherton, F.R., Openshaw, H.T., and Todd, A.R., Phosphorylation. II. Reaction of dialkyl phosphites with polyhalogen compounds in the presence of bases — method for the phosphorylation of amines, /. Chem. Soc., 660, 1945. 

Route B of this process may be substantially improved in terms of yield and product quality (purity) of the resulting triarylaminoarylcarbonium pigment. To this end, the solution of the free dye base is treated with an excess of aqueous sulfuric acid (20 to 40% ) in a solvent such as chlorobenzene or an aromatic amine. This method produces the sulfate of the basic dye, which is insoluble in this medium, together with the soluble sulfates of the primary aromatic amines, which can therefore easily be separated. The isolated sulfate of the basic dye is then washed and in dry or wet condition monosulfonated with 85 to 100% sulfuric acid. Based on the dye base sulfate, this step affords 96 to 98% yield, compared to only 83 to 89% achieved by the previously described method. The entire synthesis, including the intermediate isolation of the triarylaminoarylmethane sulfate, may also be performed by continuous process [3]. 

Ni and Padwa developed an interesting method for the construction of sulfur-containing 1,3-dienes 116 using 115 as precursor of a palladium-catalyzed reaction, which was executed in the absence of an amine base (Scheme 14.26) [55]. 

It seems reasonable that polyester cyclics could be prepared by an extension of the /wendo-high-dilution [17] chemistry used for the preparation of cyclic carbonate oligomers [18, 19] however, such proved not to be the case. Brunelle et al. showed that the reaction of terephthaloyl chloride (TPC) with diols such as 1,4-butanediol did not occur quickly enough to prevent concentration of acid chlorides from building up during condensation [14]. Even slow addition of equimolar amounts of TPC and butanediol to an amine base (triethylamine, pyridine or dimethylaminopyridine) under anhydrous conditions did not form cyclic oligomers. (The products were identified by comparison to authentic materials isolated from commercial PBT by the method of Wick and Zeitler [9].)... 

Nucleophilic addition of phenolic nucleophiles to l,l-dicyano-2-arylethenes in the gas phase and in water has been studied theoretically" using the semiempirical AMI method and the Cramer-Truhlar solvation model SM2.1. The difference between the Brpnsted coefficients (a" = 0.81 and P" =0.65) determined for the gas-phase reaction is indicative of a small positive transition state imbalance of / = 0.16. For reaction in water the estimates (a" = 0.61 and P" = 0.36, giving I = 0.25) are close to the experimental values (a" = 0.55 and P" = 0.35) obtained with amine bases, and the small imbalance is as expected for a reaction involving no hybridization change at the incipient carbanion site. 

In order to generate the dynamic cyanohydrin systems, several cyanide sources can be used, for example, cyanide salts, TMSCN, and cyanohydrin adducts such as acetone cyanohydrin. The latter method represents a means to form cyanohydrin DCLs under mild conditions, where acetone cyanohydrin is treated with amine base to release the cyanide ion together with acetone in organic solvents. The resulting cyanide ion then reacts with the set of aldehydes (or ketones), giving rise to the corresponding cyanohydrin adducts... 

The majority of the Michael-type conjugate additions are promoted by amine-based catalysts and proceed via an enamine or iminium intermediate species. Subsequently, Jprgensen et al. [43] explored the aza-Michael addition of hydra-zones to cyclic enones catalyzed by Cinchona alkaloids. Although the reaction proceeds under pyrrolidine catalysis via iminium activation of the enone, and also with NEtj via hydrazone activation, both methods do not confer enantioselectivity to the reaction. Under a Cinchona alkaloid screen, quinine 3 was identified as an effective aza-Michael catalyst to give 92% yield and 1 3.5 er (Scheme 4). 

Maleic anhydride derivatives are readily making it possible to perform their transformations into photochromic N-alkyl-substituted dithienylma-leimides with primary amines. This method was used to prepare cyclic imides 187 in anhydrous methanol or ethanol at 20-80°C in 67-90% yields (02ZOR1390) and N-alkyl(aryl) derivatives 188 based on thieno[3,2-b]pyr-role (03IZV1719) in 70-90% yields. 

The only four- - six-membered ring interconversions of any real synthetic significance are those involving diketene. Base-catalyzed dimerization of diketene is a long-established and efficient method for the preparation of dehydroacetic acid (equation 161), while mild treatment with water in the presence of tertiary amine bases gives 2,6-dimethyl-4-pyrone (equation 162). 1,3-Dioxins are obtained from the acid-catalyzed condensation of diketene with ketones (equation 163). 

Two closely related methods for the direct transformation of THP ethers into TBDMS ethers, using TBDMSOTf and a tertiary amine base, have been disclosed72,73. This reagent system has been reported74 to perform the same transformation on t-butyl and t-amyl ethers. In a similar vein75, p-methoxybenzyl ethers are converted directly into the corresponding silyl ethers using TMSOTf and triethylamine. 

Sample Preparation. Chemically polymerized 2-ethyl polyaniline, with reported molecular weight of 5000, was prepared by the method outlined by Leclerc et al. (15). Treatment of the insoluble product with ammonium hydroxide solution resulted in transforming the salt into the soluble EB form, which exhibited slight solubility in methanol. The soluble EB form of PANi is known to be readily protonated under acidic conditions, producing the highly insoluble ammonium salt form (16.17). In order to maintain the free amine base form in solution, it was necessary to synthesize the silica gel in the presence of a minimal amount of acid catalyst. 

There are two methods to soften (plasticize) polyurethanes. The first is to use reactive plasticizers such as long-chain hydroxyl or amine-based materials, and the second is to use a compatible nonreactive plasticizer such as DIOP or Benzoflex 9-88. 

Discussion Taddol-catalyzed DA reactions provide simple and direct routes to functionalized cyclohexenones in enantiomerically enriched form. As with the HDA reactions, the best results were obtained when pure diene and dienophile were used, and the reaction temperature was rigorously maintained. Traces of moisture or acid impact negatively upon diene stability and product enantio-purities. One important advantage of the method is the commercial availability of both taddol catalyst 119 and the diene. The best substrates for the taddol-catalyzed DA reactions were a-substituted acroleins. This reactivity profile is complementary to that found for the secondary amine-based organocatalysis developed by MacMillan and co-workers, in which -substituted acroleins provided the best results [116]. 

Numerous methods can be used for the synthesis of trialkylsilyl ethers (Scheme 1.27). Alcohols react rapidly with trialkylsilyl chloride (R sSiCl) to give trialkylsilyl ethers (ROSiR 3) in the presence of an amine base like triethylamine, pyridine, imidazole or 2,6-lutidine (Table 1.2). 

The starting materials are readily available by dialkylation of benzyl-amine or by the monoalkylation of alkylbenzylamines, which in turn are prepared by the reduction of Schiff bases (method 429). The method has been extended to the formation of hydroxy amines, amino esters, and amino acids. ... 

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