Lewis catalyzed

An acid (protic or Lewis) catalyzed conversion of an oxime to a substituted carboxylic amide. See Darling, C.M. and Chen, C.P., Rearrangement ofV-benzyl-2-cyano-(hydroxyimino)acetamide,... 

Sakurai reaction + Friedel-Crafts alkylation Two Lewis-catalyzed reactions to generate 3,4,4-triaryl-1-butenes can be performed in sequence in one pot using HfCU- For example, addition of an allylsilane to ArCHO is followed by alkylation of anisole or phenol. 

Figure 7.26 Lewis-catalyzed formation of f CIcyanohydrins with TMS CN...

Fig. 8.16 Reaction network for tandem reaction of glucose conversion to HMF by CrCI3 and HCI in aqueous phase (FA- furfural, Lewis-catalyzed reaction network is shown by dashed line). (Modified from T. D. Swift, H. Nguyen, A. Anderko, V. Nikolalds, D.G. Vlachos, Tandem Lewis/Bronsted homogeneous acid catalysis conversion of glucose to 5-hydoxymethylfurfural in an aqueous chromium (III) chloride and hydrochloric acid solution. Green Chemistry 17 (2015) 4725—4735. Copyright 2015 Royal Society of Chemistry).

Ene reaction with aldehydes is catalyzed by Lewis Acids (Et2AlCl)... 

In an intramolecular aldol condensation of a diketone many products are conceivable, since four different ends can be made. Five- and six-membered rings, however, wUl be formed preferentially. Kinetic or thermodynamic control or different acid-base catalysts may also induce selectivity. In the Lewis acid-catalyzed aldol condensation given below, the more substituted enol is formed preferentially (E.J. Corey, 1963 B, 1965B). 

Spherical, pentagonal dodecahedrane is the thermodynamically most stable CjoHjo-polycycloalkane. It is the so-called CjjHjo stabilomer . It should therefore be available by thermod5mamically controlled, e.g. acid-catalyzed, isomerization of less stable C24H20-isomers. Experiments along this line, e.g. treatment of the basketene photo-dimer with Lewis... 

Reactions of another class are catalyzed by Pd(II) compounds which act as Lewis acids, and are treated in Chapter 5 and partly in Chapter 4. From the above-mentioned explanation, the reactions catalyzed by Pd(0) and Pd(II) are clearly different mechanistically. In this book the stoichiometric and catalytic reactions are classified further according to reacting substrates. However, this classification has some problems, viz. it leads to separate treatment of some unit reactions in different chapters. The carbonylation of alkenes is an example. Oxidative carbonylation of alkenes is treated in Chapter 3 and hydrocar-bonylation in Chapter 4. 

Phenyl-1,4-hcxadicnc (122) is obtained as a major product by the codimerization of butadiene and styrene in the presence of a Lewis acid[110]. Pd(0)-catalyzed addition reaction of butadiene and aiiene (1 2) proceeds at 120 C to give a 3 1 mixture of trans- and c -2-methyl-3-methylene-l,5.7-octatriene (123)[lll]. 

Sulfur tetrafluoride [7783-60-0] SF, replaces halogen in haloalkanes, haloalkenes, and aryl chlorides, but is only effective (even at elevated temperatures) in the presence of a Lewis acid catalyst. The reagent is most often used in the replacement of carbonyl oxygen with fluorine (15,16). Aldehydes and ketones react readily, particularly if no alpha-hydrogen atoms are present (eg, benzal fluoride [455-31-2] from benzaldehyde), but acids, esters, acid chlorides, and anhydrides are very sluggish. However, these reactions can be catalyzed by Lewis acids (HP, BF, etc). 

Due to the fact that BF is a weaker Lewis acid than AlCl, stmcturaHy distinct resins are obtained upon the respective polymerization of a piperylenes-2-methyl-2-butene system with the two different Lewis acids. Much lower levels of branched olefin are required to achieve a softening point of <40° C with the BF catalyzed system (33,36). In fact, due to its weaker acidity, BF is not useful for producing high softening point resins based on C-5 hydrocarbon feeds. 

The Lewis acid-catalyzed cyclization of 3-anaino-2-alkerLirnines (21) leads to a wide variety of alkyl- and aryl-substituted quinolines (59). The high regiospecificity and the excellent yields obtained make this process promising. 

According to Figure 3, hydroperoxides are reduced to alcohols, and the sulfide group is oxidized to protonic and Lewis acids by a series of stoichiometric reactions. The sulfinic acid (21), sulfonic acid (23), sulfur trioxide, and sulfuric acid are capable of catalyzing the decomposition of hydroperoxides to nonradical species. 

Ben zotricbl oride is hydrolyzed to benzoic acid by hot water, concentrated sulfuric acid, or dilute aqueous alkaH. Benzoyl chloride [98-88-4] is produced by the reaction of benzotrichloride with an equimolar amount of water or an equivalent of benzoic acid. The reaction is catalyzed by Lewis acids such as ferric chloride and zinc chloride (25). Reaction of benzotrichloride with other organic acids or with anhydrides yields mixtures of benzoyl chloride and the acid chloride derived from the acid or anhydride (26). Benzo triflu oride [98-08-8] is formed by the reaction of benzotrichloride with anhydrous hydrogen fluoride under both Hquid- and vapor-phase reaction conditions. 

In stepwise additions, ketenes are usually the nucleophilic component, so that such additions can be catalyzed by Lewis acids, such as the additions of trimethylsilylketenes to aldehydes, catalyzed by BF3 (Scheme 14) (79JOC733). However, the roles can be reversed, such as in the addition of chlorocyanoketene to benzaldehyde (79JA5435). 

The most important reaction with Lewis acids such as boron trifluoride etherate is polymerization (Scheme 30) (72MI50601). Other Lewis acids have been used SnCL, Bu 2A1C1, Bu sAl, Et2Zn, SO3, PFs, TiCU, AICI3, Pd(II) and Pt(II) salts. Trialkylaluminum, dialkylzinc and other alkyl metal initiators may partially hydrolyze to catalyze the polymerization by an anionic mechanism rather than the cationic one illustrated in Scheme 30. Cyclic dimers and trimers are often products of cationic polymerization reactions, and desulfurization of the monomer may occur. Polymerization of optically active thiiranes yields optically active polymers (75MI50600). 

BLANC QUELLET Chtoroalkylation Lewis acid catalyzed aromatic chloromethylation (Blanc) chloroalkylation (Quellet)... 

DIELS - ALDER Cyclohexene synthesis A 2 Thermal cycloaddition between a diene and an activated alkene or alkyrte, sometimes catalyzed by Lewis acids. 

FRIES Phenol Esier Rearrangement Rearrangement ol phenol esters to o or p ketophenols Lewis acid catalyzed... 

Thermal or Lewis acid catalyzed rearrangement of N alkylanilines to o (p-) akylated anilines... 

There has been little study of the stereoselectivity of the reaction under acidic conditions. In the absence of a coordinating Lewis acid, there is no preference for a cyclic transition state. When regioisomeric enols are possible, acid-catalyzed reactions tend to proceed through the more substituted of the enols. This reflects the predominance of this enol. (See Section 7.2.)... 

For preparative purposes, a Lewis acid such as AICI3 or FeCl3 is often used to catalyze chlorination. Chlorination of benzene by AICI3 is overall third-order. ... 

There is, however, no direct evidence for the formation of Cl", and it is much more likely that the complex is the active electrophile. The substrate selectivity under catalyzed conditions ( t j = 160fcbenz) is lower than in uncatalyzed chlorinations, as would be expected for a more reactive electrophile. The effect of the Lewis acid is to weaken the Cl—Cl bond, which lowers the activation energy for o-complex formation. 

Bromination is catalyzed by Lewis acids, and a study of the kinetics of bromination of benzene and toluene in the presence of aluminum chloride has been reported. Toluene is found to be about 35 times more reactive than benzene under these conditions. The catalyzed reaction thus shows a good deal less substrate selectivity than the uncatalyzed reaction, as would be expected on the basis of the greater reactivity of the aluminum chloride-bromine complex. 

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