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Compound 4-chlorobenzene

From among the compounds chlorobenzene o dichlorobenzene and p dichlorobenzene choose the one that... [Pg.580]

Methods for Determining Biomarkers of Exposure and Effect. Excellent sensitive and selective methods are available for the qualitative and quantitative measurement of the parent compound, chlorobenzene after it is separated from its sample matrix. Methods need to be validated for chlorobenzene. [Pg.67]

Methods for determining the parent compound, chlorobenzene, in water, air, and waste samples with excellent selectivity and sensitivity are highly developed, thus the database in this area is good and undergoing constant improvement. [Pg.67]

Polycyclic aromatic hydrocarbons Alkylated aromatic hydrocarbons Chlorinated aromatic compounds Chlorobenzenes Polychlorinated biphenyls Polychlorinated dibenzo[l,4]dioxins Chlorinated guaiacols and catechols Nitrogen-containing aromatic compounds Azaarenes and aromatic nitriles Oxygenated aromatic compounds 2,4-Dipentyl phenol Polycyclic quinones and ketones Aliphatic carboxylic acids Cs and C, dicarboxylic acids... [Pg.145]

Figure 6.6 Reaction sequences for the photochemical degradation of p-chlorophenol. [Reproduced with permission from P. Boule, C. Guyon, A. Tissot, and J. Lemaire, Specific Phototransformation of Xenobiotic Compounds Chlorobenzenes and Halophenols , in R. G. Zika and W. J. Cooper, Eds, Photochemistry of Environmental Aquatic Systems, ACS Symposium Series No. 327, pp. 10-26. Copyright 1985, American Chemical Society.]... Figure 6.6 Reaction sequences for the photochemical degradation of p-chlorophenol. [Reproduced with permission from P. Boule, C. Guyon, A. Tissot, and J. Lemaire, Specific Phototransformation of Xenobiotic Compounds Chlorobenzenes and Halophenols , in R. G. Zika and W. J. Cooper, Eds, Photochemistry of Environmental Aquatic Systems, ACS Symposium Series No. 327, pp. 10-26. Copyright 1985, American Chemical Society.]...
Which compound, chlorobenzene ortoluene, undergoes electrophilic aromatic substitution more rapidly when treated with CI2/AICI3 Explain and draw structural formulas for the major product(s) from each reaction. [Pg.326]

The activity of catalysts was tested in gas phase hydrodechlorination (HDC) of chlorobenzene and multiphase HDC of various chlorinated aromatic compounds chlorobenzene 1,3,5-tiichlorobenzene 2,4,8-trichlorodibenzofuran and hexachlorobenzene. [Pg.294]

A mixture of the two mononitro-chlorobenzenes is prepared by nitration of chlorobenzene. Further nitration of the mixture or of either of the mononitro-compounds gives 2,4-dinitrochlorobenzene, m.p. 5 C, b.p. 315"C. [Pg.277]

Students should carry out the purification by steam distillation of (a) crude nitrobenzene or chlorobenzene, or of (b) crude naphthalene, o-nitrophenol (p. 170) or />-tolunitrile (p. 194) as examples of solid compounds which may also be purified in this way. When the distillation is complete, disconnect the tubing (Fig. 15) between C and D before removing the flame from under D, otherwise the contents of C will be sucked back into D as the latter cools. [Pg.34]

The commercial product, m.p. 53-55°, may be used. Alternatively the methyl -naphthyl ketone may be prepared from naphthalene as described in Section IV,136. The Friedel - Crafts reaction in nitrobenzene solution yields about 90 per cent, of the p-ketone and 10 per cent, of the a-ketone in carbon disulphide solution at — 15°, the proportions ore 65 per cent, of the a- and 35 per cent, of the p-isomer. With chlorobenzene ns the reaction medium, a high proportion of the a-ketone is also formed. Separation of the liquid a-isomer from the solid p-isomer in Such mixtures (which remain liquid at the ordinary temp>erature) is readily effected through the picrates the picrate of the liquid a-aceto compound is less soluble and the higher melting. [Pg.767]

The formation of alkylbenzenes, largely free from unaaturated compounds, provides another interesting application of organosodium compounds. Thus pure M-butylbenzene is readily obtained in good yield from benzyl sodium and n-propyl bromide. Benzyl-sodium is conveniently prepared by first forming phenyl-sodium by reaction between sodium and chlorobenzene in a toluene medium, followed by heating the toluene suspension of the phenyl-sodium at 105° for about 35 minutes ... [Pg.934]

The name D.D.T. is derived from dichlorodiphenylfrichloroethane this is a misnomer since the name represents 27 different compounds. As commonly employed it refers to 2 2-6ts(p-chlorophenyl)-l 1 1-trichloroethane. It is conveniently prepared by the condensation of chlorobenzene and chloral hydrate in the presence of concentrated sulphuric acid ... [Pg.1011]

Halogen compounds. re-Butyl bromide Chlorobenzene AUyl bromide Benzoyl chloride. [Pg.1056]

Separations based upon differences in the chemical properties of the components. Thus a mixture of toluene and anihne may be separated by extraction with dilute hydrochloric acid the aniline passes into the aqueous layer in the form of the salt, anihne hydrochloride, and may be recovered by neutralisation. Similarly, a mixture of phenol and toluene may be separated by treatment with dilute sodium hydroxide. The above examples are, of comse, simple apphcations of the fact that the various components fah into different solubihty groups (compare Section XI,5). Another example is the separation of a mixture of di-n-butyl ether and chlorobenzene concentrated sulphuric acid dissolves only the w-butyl other and it may be recovered from solution by dilution with water. With some classes of compounds, e.g., unsaturated compounds, concentrated sulphuric acid leads to polymerisation, sulphona-tion, etc., so that the original component cannot be recovered unchanged this solvent, therefore, possesses hmited apphcation. Phenols may be separated from acids (for example, o-cresol from benzoic acid) by a dilute solution of sodium bicarbonate the weakly acidic phenols (and also enols) are not converted into salts by this reagent and may be removed by ether extraction or by other means the acids pass into solution as the sodium salts and may be recovered after acidification. Aldehydes, e.g., benzaldehyde, may be separated from liquid hydrocarbons and other neutral, water-insoluble hquid compounds by shaking with a solution of sodium bisulphite the aldehyde forms a sohd bisulphite compound, which may be filtered off and decomposed with dilute acid or with sodium bicarbonate solution in order to recover the aldehyde. [Pg.1091]

Further evidence that the nitronium ion was not the electrophile in the uncatalysed reaction, and yet became effective in the catalysed reaction, came from differences in the orientation of substitution. The nitration of chlorobenzene in the uncatalysed reaction yielded only 43 % of the para compound, whereas, when the catalysed reaction was made important by adding some nitric acid, the ratio of substitution was that usually observed in nitration involving the nitronium ion ( 5.3.4). In the case of the uncatalysed reaction however, the reaction was complicated by the formation of nitrophenols. [Pg.54]

Characteristics of the system as nitrating reagents Wibaut, who introduced the competitive method for determining reactivities (his experiments with toluene, benzene and chlorobenzene were performed under heterogeneous conditions and were not successful), pointed out that solutions of nitric acid in acetic anhydride are useful in making comparisons of reactivities because aromatic compounds are soluble in them. ... [Pg.82]

Halides derived from certain heterocyclic aromatic compounds are often quite reac tive toward nucleophiles 2 Chloropyridme for example reacts with sodium methoxide some 230 million times faster than chlorobenzene at 50°C... [Pg.981]

Beilstein Handbook of Organic Chemistry. This reference (55) is one of the most significant collections of data in organic chemistry. The physical and chemical properties of organic compounds are tabulated in more than 500 fields. Most of these fields are searchable, and a sample of the record for chlorobenzene [108-90-7] is shown in Table 3. [Pg.118]

Chemical Properties and Reactivity. LLDPE is a saturated branched hydrocarbon. The most reactive parts of LLDPE molecules are the tertiary CH bonds in branches and the double bonds at chain ends. Although LLDPE is nonreactive with both inorganic and organic acids, it can form sulfo-compounds in concentrated solutions of H2SO4 (>70%) at elevated temperatures and can also be nitrated with concentrated HNO. LLDPE is also stable in alkaline and salt solutions. At room temperature, LLDPE resins are not soluble in any known solvent (except for those fractions with the highest branching contents) at temperatures above 80—100°C, however, the resins can be dissolved in various aromatic, aUphatic, and halogenated hydrocarbons such as xylenes, tetralin, decalin, and chlorobenzenes. [Pg.395]

See other pages where Compound 4-chlorobenzene is mentioned: [Pg.170]    [Pg.343]    [Pg.4]    [Pg.480]    [Pg.334]    [Pg.200]    [Pg.1583]    [Pg.246]    [Pg.334]    [Pg.186]    [Pg.188]    [Pg.194]    [Pg.199]    [Pg.201]    [Pg.202]    [Pg.212]    [Pg.190]    [Pg.542]    [Pg.1012]    [Pg.1057]    [Pg.93]    [Pg.93]    [Pg.77]    [Pg.218]    [Pg.982]    [Pg.301]   
See also in sourсe #XX -- [ Pg.21 ]



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