507-36-8Relevant articles and documents
THE MECHANISM OF 2-METHYLBUTENE-2 HYDROHALOGENATION IN SOLID PHASE
Sergeev, G. B.,Smirnov, V. V.,Rostovshchikova, T. N.,Komissarovan N. V.,Indoleva, Ye. V.
, p. 5853 - 5864 (1987)
Complexes and reactions of 2-methylbutene-2 with hydrohalogen (HCl, HBr) have been studied in solid phase at 80-150 deg K.It has been found that 2-methylbutene-2 forms with HX complexes of 1:1 and 1:2 composition.Hydrohalogenation proceeds via the rearrangement of complex 2HX*C5H10 into complex of addition product with HX.Kinetic equation depends on the reagents ratio.In excess of HX (1HX:C5H1010)reaction can be described by the first order kinetic equation.If the ratio HX:C5H10 is more then 10, reaction is described by polychronous kinetic law.The effective activation energy of solid phase hydrohalogenation does not exceed 20 kJ/mole.The molecular mechanism of hydrohalogenation in solid phase has been proposed
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Bailey,Saunders
, p. 3363,3366 (1973)
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Synthesis method of tert-amylbenzene with controllable isomer content
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Paragraph 0027-0028, (2020/06/17)
The invention provides a synthesis method of tert-amylbenzene with controllable isomer content. The synthesis method comprises the following steps: 1) carrying out a substitution reaction on tert-amylalcohol and haloid acid to obtain a halopentane intermediate; 2) carrying out a Friedel-Crafts alkylation reaction on the halopentane intermediate and benzene under the catalysis of a Lewis acid to obtain tert-amylbenzene; wherein the Lewis acid is one of ZnCl2 and FeCl3 or a mixture of the ZnCl2 and the FeCl3; the temperature of the Friedel-Crafts alkylation reaction is -10 to 40 DEG C; the vacuum degree is absolute pressure of 2-75kPa; and the reaction time is 0.5-4 h. According to the synthesis method, by setting reasonable reaction steps, controlling reaction conditions, selecting a proper catalyst and the like, the isomerization ratio is reduced, and the tert-amyl product with high yield and high selectivity is obtained.
1,2-Dibromotetrachloroethane: An efficient reagent for many transformations by modified Appel reaction
Essiz, Sel?uk,Da?tan, Arif
, p. 150 - 156 (2019/05/16)
An efficient and facile method has been developed for the synthesis of alkyl bromides from various alcohols under mild conditions using a triphenylphosphine (PPh 3) /1,2-dibromotetrachloroethane (DBTCE) complex in excellent yields and very short time (5 min). This method can also be applied for the transformation of chiral alcohols to their corresponding bromides in very high enantiomeric excess. The PPh 3 /DBTCE complex is also successfully applied to ring-opening reactions of cyclic ethers in mild conditions. Esterification, amidation, and formation of acid anhydrides under very mild experimental conditions are also successfully accomplished by following a modification of the Appel reaction protocol in this work.