Alkenes carbon tetrachloride

Woycicki, W. Excess enthalpies of binary mixtures containing unsaturated hydrocarbons. 2. n-Alkenes + carbon tetrachloride J Chem. Thermodyn. 1975, 7,1007-1014... 

Allylic brommations are normally carried out using one of a number of special ized reagents developed for that purpose N Bromosuccimmide (NBS) is the most fre quently used of these reagents An alkene is dissolved m carbon tetrachloride N bromo succimmide is added and the reaction mixture is heated illuminated with a sunlamp or both The products are an allylic halide and succimmide... 

Analysis. Butenes are best characterized by their property of decolorizing both a solution of bromine in carbon tetrachloride and a cold, dilute, neutral permanganate solution (the Baeyer test). A solution of bromine in carbon tetrachloride is red the dihaUde, like the butenes, are colorless. Decoloration of the bromine solution is rapid. In the Baeyer test, a purple color is replaced by brown manganese oxide (a precipitate) and a colorless diol. These tests apply to all alkenes. 

One of the older preparative free-radical reactions is the addition of polyhalomethanes to alkenes. Examples of addition of carbon tetrabromide, carbon tetrachloride, and bromoform have been recorded. The reactions are chain processes that depend on facile abstraction of halogen or hydrogen from the halomethane ... 

Test for an alkene. At the left is a solution of bromine in carbon tetrachloride. Addition of a few drops of an alkene causes the red color to disappear as the alkene reacts with the bromine. 

Geranyl chloride can be prepared from geraniol by the careful use of triphenylphosphine in carbon tetrachloride. Tris(dimethylamino)phosphine reacts with carbon tetrachloride to form the complex (42) which can be used to form the enol esters (43) from acid anhydrides. Similarly, aldehydes form the alkenes (44), and esters or amides of trichloroacetic acid are converted to glycidic esters. ... 

The rate of the product-forming step is generally considered to be very fast, since it is an anion-cation reaction. However, bulky substituents can also slow this last step by making nucleophilic attack on the bromonium ion difficult. The most famous example of steric inhibition of product formation is the bromination (29) of adamantylideneadamantane in carbon tetrachloride (Strating et al, 1969). Bromine adds to this alkene, i.e. the electrophile can... 

The most common reaction conditions for alkene reductions use excess tri-fluoroacetic acid and triethylsilane either neat202 204 or in an inert solvent such as nitrobenzene,134 2-nitropropane,205 carbon tetrachloride,206 chloroform,207 or dichloromethane.127,164 Reaction temperatures from —78° to well over 100° are reported. Ambient or ice-bath temperatures are most commonly used, but variations of these conditions abound. 

The alkoxytrihaloteUurination of alkenes or cycloalkenes is afforded by treatment with tellurium dioxide/hydrochloric acid/alcohoF or with tellurium tetrachloride (or tetrabro-mide)/alcohol in carbon tetrachloride. ... 

When no electrophile is present, reduction of carbon tetrachloride leads to di-chlorocarbene by elimination of chloride ion from the trichloromethyl carbanion intermediate. Dichloromethane is the best solvent for this process [79], The car-bene is trapped by reaction with an alkene to form a dichlorocyclopropane (Table... 

The reaction of / with bromine in carbon tetrachloride confirms the prediction that / is an alkene. The reaction with HBr means that G is the Markovnikov addition product, and the reaction in the presence of peroxides makes //the anti-Markovnikov product. 

From singlet oxygen reaction with silyl enol ethers When a carbon tetrachloride solution of 1-methoxy-l-trimethylsiloxy-l-alkene in the presence of tetraphenylporphyrin and bubbling oxygen is irradiated with a 400-W Na lamp, a-trimethylsilyl peroxyesters were obtained in good yield (equation 11) . ... 

The hydrogen fluoride/ melamine agent (particularly when used as a two-phase system with pentane or carbon tetrachloride) gives alkyl fluorides from alkenes in almost quantitative yield.40,41,65 The following procedure is superior to others in its ready separation of the fluorine compounds and the repeated use of the hydrogen fluoride system.41... 

Boron trifluoride and boron trifluoride-diethyl ether complex can be used as a source of fluoride ions in the presence of hypobromites and hypochlorites, e.g. methyl hypobromitc, tert-butyl hypobromite, methyl hypochlorite in carbon tetrachloride at 25 C. The addition of bromine monofluoride" and chlorine monofluoride" to various alkenes is accompanied by the formation of the corresponding alkoxybromides and alkoxychlorides which hinder the isolation of the halofluorinated products.57 jV-Bromo- and A -chloro-substiluted alkyl- and arylamines. -amides, and -imides, A -chloro-A,-methylamine, A -bromo-A -methylamine, A -chloro-A, /V-dimethylamine, A-bromo-A.A-dimethylamine, ACV-dichloro-A -methylamine, V,fV-dibromo-,V-mcthylaminc, A -bromosuccinimide, -V-chlorosuccinimide, Af-bromoacct-amide, A.A -dichlorourethane, can be used in the reaction instead of the hypohalites. The reactions with various alkenes conducted in dichloromethane at room temperature in the presence of boron trifluoride-diethyl ether complex produce bromofluoro and chlorofluoro addition products in 40-80 % yield. However, the reactions are complicated by the addition of A -halo-succinimides and Af.A-dichlorourcthane to the C = C bonds.58... 

Kinetic data for ozonization reactions of a given number of alkenes in carbon tetrachloride at different temperatures are consistent with the presence of a pre-association equilibrium between the alkene and the ozone when electron-rich alkenes are used49. 

The direct introduction of bromine into the allylic position of an alkene using ZV-bromosuccinimide is known as the Wohl-Ziegler reaction. Bromination is carried out in anhydrous reagents (to avoid hydrolysis of the bromoimide), usually boiling carbon tetrachloride or chloroform solution. The progress of the reaction can be followed by the fact that at first the dense N-bromosuccinimide is at the bottom of the flask and is gradually replaced by succinimide, which rises... 

Bhowmick and Semmens (1994) studied the photooxidation kinetics of five halogenated VOCs, including chloroform (CHL), carbon tetrachloride (CTC), trichloroethylene (TCE), tetrachloroethylene (PCE), and 1,1,2-trichloroethane (TCA) by UV/ozone. In the low to intermediate concentration range of 0.07 to 1.11 mg/L, the reactivities of the organics rank in the following order TCE > PCE > CTC > CHL > TCA. This order indicates that the reaction between ozone and saturated hydrocarbons is much slower than that of ozone with unsaturated compounds such as alkenes. For CHL, TCA, and CTC, an increase in ozone concentration had little effect on the rate constant. By comparison, the rates of oxidation for TCE and PCE increased with added... 

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