Benzonitrile solvent

Palladium is best inserted starting from PdCl2. The solvent benzonitrile was introduced by Eisner [74] who used the complex PdCl2(PhCN)2 made from PdCl2 and excess PhCN. The complex can be formed in situ and the porphyrin added after dissolution of the PdCl2 (Eq. 7). 

Although thermal decomposition of 2-trityl-5-aryltetrazoles 197 occurs specifically, the final result of the reaction may be ambiguous. For instance, these compounds on heating in benzonitrile give 3,6-diaryl-l,3,4,5-tetrazines 198. Apparently the N2 elimination in a polar solvent (benzonitrile) occurs with cleavage of triphenylmethane followed by dimerization of the intermediate arylnitrile imine (Equation 19) <2002RJ01360>. 

The kind of useful polymerization solvents depends on the reactivity of monomers. tert-Butylacetylene polymerizes not only in oxygen-containing solvents (1,4-dioxane, anisole, methyl benzoate, acetophenone, etc.) but also in nitrogen-containing solvents (benzonitrile, acetonitrile, nitrobenzene, nitroethane, etc.)19). Therefore, it can be said that tm-butylacetylene is one of the most reactive monomers in the polymeriza-... 

Oxidative cleavage of l -deols. The reagent catalyzes the cleavage of 1,2-glycols by oxygen in an aprotic, polar solvent (benzonitrile, DMF, sulfolane). Yields of aldehydes tre 60-81 %. Further oxidation to carboxylic acids is possible.1... 

Solvent toluene 50% (v/v) Solvent benzene 3 M Solvent chlorobenzene 3 M Solvent benzonitrile 3 M Solvent toluene... 

The following is a modification of the process described and gives quite satisfactory results. Wash the crude mixture of benzonitrile and dibromopentane with sodium carbonate solution until the latter remains alkaline, and then with water. Distil it under reduced pressure and collect the fraction boiling up to 120°/18 mm. Dissolve this in twice its volume of light petroleum, b.p. 40-60°, which has previously been shaken with small volumes of concentrated sulphuric acid until the acid remains colourless. Shake the solution with 6 per cent, of its volume of concentrated sulphuric acid, allow to settle, and run ofi the sulphuric acid layer repeat the extraction until the acid is colourless or almost colourless. Wash successively with water, sodium carbonate solution and water, dry over anhydrous calcium chloride or calcium sulphate, and distil off the solvent. Distil the residue under diminished pressure and collect the 1 6-dibromopentane at 98- 100°/13 mm. 

Aryl, heteroaryl, and alkenyl cyanides are prepared by the reaction of halides[656-658] or triflates[659,660] with KCN or LiCN in DMF, HMPA, and THF. Addition of crown ethers[661] and alumina[662] promotes efficient aryl and alkenyl cyanation. lodobenzene is converted into benzonitrile (794) by the reaction of trimethylsiiyl cyanide in EtiN as a solvent. No reaction takes place with aryl bromides and chlorides[663]. The reaction was employed in an estradiol synthesis. The 3-hydroxy group in 796 was derived from the iodide 795 by converting it into a cyano group[664]. 

Katz et al. also plotted the distribution coefficient of n-pentanol, benzonitrile and vinyl acetate against the concentration of unassociated methanol in the solvent mixture and the results are shown in Figure 32. It is seen that the distribution coefficient of all three solutes is predominantly controlled by the amount of unassociated methanol in the aqueous solvent mixture. In addition, the distribution coefficient increases linearly with the concentration of unassociated methanol for all three solutes over the entire concentration range. The same type of curves for anisole and benzene, shown in Figure 33, however, differ considerably. Although the relationship between distribution coefficient and unassociated methanol concentration is approximately linear up to about 50%v/v of unassociated methanol, over the entire range the... 

In benzonitrile both types of processes occur in parallel with similar efficiencies. In hydrogen-donating solvents (toluene, ether, dioxane, ethanol), hydrogen abstraction processes prevail [toluene (114) -> (123)]. 

Attempts have been made to catalyze the arrangement of 3-oxaquadricyclane to oxepins with transition-metal complexes.1 32 1 35 When dimethyl 2,4-dimethyl-3-oxaquadricyclane-l,5-dicarboxylate is treated with bis(benzonitrile)dichloroplatinum(II) or dicarbonylrhodium chloride dimer, an oxepin with a substitution pattern different from that following thermolysis is obtained as the main product. Instead of dimethyl 2,7-dimethyloxepin-4,5-dicarboxylate, the product of the thermal isomerization, dimethyl 2,5-dimethyloxepin-3,4-dicarboxylate (12), is formed due to the cleavage of a C O bond. This transition metal catalyzed cleavage accounts also for the formation of a 6-hydroxyfulvene [(cyclopentadienylidene)methanol] derivative (10-15%) and a substituted phenol (2-6%) as minor products.135 The proportion of reaction products is dependent on solvent, catalyst, and temperature. 

Most 2,5-unsubstituted pyrroles and thiophenes, and most anilines can be polymerized by electrochemical oxidation. For pyrroles, acetonitrile,54 or aqueous55 electrolyte solutions are normally used, while the polymerization of thiophenes is performed almost exclusively in nonaqueous solvents such as acetonitrile, propylene carbonate, and benzonitrile. 0 Polyanilines are generally prepared from a solution of aniline in aqueous acid.21 Platinum or carbon electrodes have been used in most work, although indium-tin oxide is routinely used for spectroelectrochemical experiments, and many other electrode materials have also been employed.20,21... 

Triazines have been prepared by microwave-assisted reaction of substituted benzonitriles 161 and cyanoguanidines 162 using the ionic hquid [bmim][PF6] as the solvent at 130°C for 10-15 min [106]. Nine differently... 

Huisgen et al. also studied the thermal decomposition of ethyl diazoacetate in the presence of benzonitrile and phenylacetonitrile to give the corresponding 2-substituted-5-ethoxy oxazoles 3 in variable yields (Scheme 3).<64CB2864> The authors found that the solvent had an effect on the rate of decomposition of ethyl diazoacetate in the polar solvent, niuobenzene, the rate was found to be twice that in the hydrocarbon solvent, decalin. 

Cull and co-authors reported a microbe-mediated transformation of benza-mide from benzonitrile in a mixed solvent of IL, l-butyl-3-methylimidazolium... 

Scheme 11.11 gives some representative preparative reactions based on these methods. Entry 1 is an example of the classical procedure. Entry 2 uses crown-ether catalysis. These reactions were conducted in the aromatic reactant as the solvent. In the study cited for Entry 2, it was found that substituted aromatic reactants such as toluene, anisole, and benzonitrile tended to give more ortho substitution product than expected on a statistical basis.180 The nature of this directive effect does not seem to have been studied extensively. Entries 3 and 4 involve in situ decomposition of A-nitrosoamides. Entry 5 is a case of in situ nitrosation. 

Recently, a photoisomerization reaction of azoferrocene was found to proceed in polar solvents such as benzonitrile and DMSO through both a 7t it transition of the azo-group with a UV light (365 nm) and the MLCT transition with a green light (546 nm) (Fig. 6) (Scheme 1) (153). The quantum yields of the photo-isomerization reaction at 365 nm and 546 nm were estimated to be 0.002 and 0.03, respectively. The transformation into the cis form causes the higher field shift of Cp protons in the 1H-NMR spectrum and an appearance of u(N = N) at 1552 cm-1. The cis form is greatly stabilized in polar media, and dilution of the polar solution of cis-25 with less polar solvents resulted in a prompt recovery of the trans form. 

Parker37 defined class 4 as solvents "which cannot donate suitable labile hydrogen atoms to form strong hydrogen bonds with an appropriate species and proposed the designation dipolar aprotic solvents he extended their range down to s > 15 and quoted as examples acetone, acetonitrile, benzonitrile, dimethylformamide, dimethyl sulphoxide, nitrobenzene, nitromethane (41.8) and sulfolane (tetramethylene sulphone) (44), where e varies from 21 to 46.5, and the dipole moment p from 2.7 to 4.7 debye. 

Benzoguanamine has been prepared by the reaction of dicyandiamide with benzonitrile in a sealed tube at 220-230°,2 with an excess of benzonitrile in the presence of piperidine and potassium carbonate,3 with benzonitrile in a solvent in the presence of a basic catalyst,4 and with benzamidine hydrochloride at elevated temperatures.5 It has also been prepared from the reaction of biguanide acetate with benzamidine hydrochloride,5 or of bigua-nide sulfate with benzoyl chloride in an alkaline medium,7 and by the distillation of guanidine benzoate.5... 

Tomin VI, Hubisz K (2004) Band broadening in the electronic spectra of 4-dimethylamino-benzonitrile in polar solvents. Russ J Phys Chem 78 1114—1118... 

Schuddeboom W, Jonker SA, Warman JM, Leinhos U, Kiihnle W, Zachariasse KA (1992) Excited-state dipole moments of dual fluorescent 4-(dialkylamino) benzonitriles. Influence of alkyl chain length and effective solvent polarity. J Phys Chem 96 10809-10819... 

Sudholt W, Staib A, Sobolewski AL, Domcke W (2000) Molecular-dynamics simulations of solvent effects in the intramolecular charge transfer of 4-(N, N-dimethylamino) benzonitrile. Phys Chem Chem Phys 2(19) 4341-4353... 

Feldman and Eastman have suggested that the kinamycins may by reductively activated to form reactive vinyl radical (25) and orf/to-quinone methide (26) intermediates (Scheme 3.2c) [16]. The authors provided convincing evidence that the alkenyl radical 25 is generated when the model substrate dimethyl prekinamycin (24) is exposed to reducing conditions (tri-n-butyltin hydride, AIBN). Products that may arise from addition of this radical (25) to aromatic solvents (benzene, anisole, and benzonitrile) were isolated. The ort/io-quinone methide 26 was also formed,... 

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