Weakly benzene

Chlorobenzene [108-90-7] is a colorless, neutral liquid with a weak, benzene-like odor. It is insoluble in water and miscible with organic solvents. Chlorobenzene has a good solvency for fats, oils, resins, polymers, binders, rubber, and chlorinated rubber. Cellulose ethers dissolve in the presence of small amounts of alcohols cellulose nitrate is insoluble. Chlorobenzene is a solvent in the production of bitumen and asphalt coatings for building protection. 

Consequently, the spectra resemble those of the corresponding hydrocarbons and can be similarly interpreted. The charge-transfer model also accounts for the similarity of the spectra of (XXVI) and the methiodide of (XXVII) (21J) since the phenyl group of the latter compound would add only weak benzene type bands to the spectrum of (XXVI), the arsenic atom... 

The unexpected preference for the interfacial region at lower concentrations of benzene has prompted speculation. It has been demonstrated that aromatic compounds are capable of forming weak hydrogen bonds with water. This ability favours uptake in the aqueous interface over solubilisation in the interior. Alternatively, some authors have attributed the binding behaviour of benzene to its... 

The selectivity of an electrophile, measured by the extent to which it discriminated either between benzene and toluene, or between the meta- and ara-positions in toluene, was considered to be related to its reactivity. Thus, powerful electrophiles, of which the species operating in Friedel-Crafts alkylation reactions were considered to be examples, would be less able to distinguish between compounds and positions than a weakly electrophilic reagent. The ultimate electrophilic species would be entirely insensitive to the differences between compounds and positions, and would bring about reaction in the statistical ratio of the various sites for substitution available to it. The idea has gained wide acceptance that the electrophiles operative in reactions which have low selectivity factors Sf) or reaction constants (p+), are intrinsically more reactive than the effective electrophiles in reactions which have higher values of these parameters. However, there are several aspects of this supposed relationship which merit discussion. 

Table 1 7 shows that hydrocarbons are extremely weak acids Among the classes of hydrocarbons acetylene is a stronger acid than methane ethane ethylene or benzene but even its K is 10 ° smaller than that of water... 

Bromine although it adds rapidly to alkenes is too weak an electrophile to react at an appreciable rate with benzene A catalyst that increases the electrophilic properties of bromine must be present Somehow carpet tacks can do this How7... 

One of the factors responsible for the rather wide variation in a values for benzene is the presence of ji-clectrons in the molecule, which can cause its adsorption to acquire a specific character if the adsorbent is polar (Chapter 1, p. 11). On hydroxylated silica, for example, the heat of adsorption is much higher than on the dehydroxylated material - on the latter solid indeed the interaction is so weak that a Type HI isotherm results (Fig. 2.19). Unfortunately c-values are rarely quoted in the literature, but... 

Stannic Chloride. Stannic chloride is available commercially as anhydrous stannic chloride, SnCl (tin(IV) chloride) stannic chloride pentahydrate, SnCl 5H20 and in proprietary solutions for special appHcations. Anhydrous stannic chloride, a colorless Aiming Hquid, fumes only in moist air, with the subsequent hydrolysis producing finely divided hydrated tin oxide or basic chloride. It is soluble in water, carbon tetrachloride, benzene, toluene, kerosene, gasoline, methanol, and many other organic solvents. With water, it forms a number of hydrates, of which the most important is the pentahydrate. Although stannic chloride is an almost perfect electrical insulator, traces of water make it a weak conductor. 

Slightly PolarFluids. Compounds having weak polarity such as benzene and toluene cannot be accurately predicted by corresponding states and are known as slightly polar fluids. 

There have been several representations of the bonding in benzyne. The one most generally used pictures benzyne as being similar to benzene but with an additional weak bond in the plane of the ring, formed by overlap of the two sp orbitals. Comparison of the NMR characteristies with MO ealeulations indieate that the eonjugation is maintained and that benzyne is a strained but aromatie moleeule. ... 

Alkenes — Also known as olefins, and denoted as C H2 the compounds are unsaturated hydrocarbons with a single carbon-to-carbon double bond per molecule. The alkenes are very similar to the alkanes in boiling point, specific gravity, and other physical characteristics. Like alkanes, alkenes are at most only weakly polar. Alkenes are insoluble in water but quite soluble in nonpolar solvents like benzene. Because alkenes are mostly insoluble liquids that are lighter than water and flammable as well, water is not used to suppress fires involving these materials. Because of the double bond, alkenes are more reactive than alkanes. 

At best, van der Waals interactions are weak and individually contribute 0.4 to 4.0 kj/mol of stabilization energy. ITowever, the sum of many such interactions within a macromolecule or between macromolecules can be substantial. For example, model studies of heats of sublimation show that each methylene group in a crystalline hydrocarbon accounts for 8 k[, and each C—IT group in a benzene crystal contributes 7 k[ of van der Waals energy per mole. Calculations indicate that the attractive van der Waals energy between the enzyme lysozyme and a sugar substrate that it binds is about 60 k[/mol. 

MF < MC1 < MBr < MI . By contrast for less-ionic halides with significant non-coulombic lattice forces (e.g. Ag) solubility in water follows the reverse sequence MI < MBr < MC1 < MF . For molecular halides solubility is determined principally by weak intermolecular van der Waals and dipolar forces, and dissolution is commonly favoured by less-polar solvents such as benzene, CCI4 or CS2. 

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