Bromination silica

Condensation of o-aminoacetophenone with maleic, succinic or phthalic anhydrides gave 117 whose bromination with CuBr2 gave the bromides 118. Column chromatographic separation of the respective maleimide derivative on silica gel gave the bromoquinoline 119 whereas the phthalimide derivative was obtained from 118 by cyclization with EtsN (93MI11). On the... 

We have previously shown (ref. 1) that microporous solids are useful in the controlled bromination of aromatic substrates. In particular, we showed how a reagent system comprising V-bromosuccinimide (NBS) and silica is useful for the bromination of reactive aromatic systems such as indoles (Fig. 1) (ref. 2), carbazoles and iminodibenzyls (Fig. 2) (ref. 3). 

In the course of studying the bromination reactions of the bicyclic systems we noticed that the reaction temperature has a dramatic influence on the product distribution. Increasing of the temperature gives non-rearranged reaction products (refs. 1,2). For this reason, we submitted 1 to high temperature bromination. To a solution of 1 in decalin at 150 C was added a hot solution of bromine in decalin in one portion. The colour of bromine disappeared immediately. After silica gel chromatography followed by fractional crystallization we isolated four products 2-6 in yields 8, 35, 37, and 9 % respectively. The structure of these compounds has been elucidated on the basis of spectral data by iH NMR and NMR experiments and by comparison with those reported in the literature. Symmetrical endo-c/5-isomer 6 has been observed for the first time. Studies concerning the mechanism of syn-addition show that the syn-adduct can arise either from direct... 

We reacted 2 first with bromine in chloroform at 10 C. iH NMR studies have revealed that the reaction mixture was very complex and consisted of six products. This mixture was submitted to silica gel column chromatography. Careful repeated chromatography followed by fractional crystallization allowed us to isolate ten products (Scheme 3). IR analysis indicated that a hydroxyl group was incorporated in compounds lfi-19. Therefore, we assume that these products have been formed by partial hydrolysis of compounds lfl-14. Structural determination of compounds lfl-19 revealed that the barrelene skeleton was rearranged completely. 

The Ag-silica-alumina material is furthermore suited to assist in sterically hindered aromatic brominations. As an example we converted 1,3,5-tri-t-butylbenzene into 2,4,6-tri-t-butylbromobenzene. When using an acidic zeolite and Br2 de-alkylation prevails and 3,5-di-t-butylbromobenzene is formed (ref. 29). 

A number of other sulphoxide reduction reactions bear mentioning. The first, due to Marchelli and coworkers , is a very simple procedure whereby the sulphoxide is refluxed with t-butyl bromide and chloroform. A useful range of sulphoxides was studied and distillation of the reaction mixture (or percolation through a column of silica gel) gave pure sulphides in yields of > 90%. The procedure is appealing because of its experimental simplicity, and its use of a relatively inexpensive reagent. It may not be very successful with sterically hindered sulphoxides and the authors do not comment on this possibility. The mechanism of this reduction reaction is akin to that of BBrj (cf. Section II.A.3), except that the bromine trap is provided by a second mole of t-butyl bromide, as shown in equation (13) ... 

Zinc chloride was used as a catalyst in the Friedel Crafts benzylation of benzenes in the presence of polar solvents, such as primary alcohols, ketones, and water.639 Friedel-Crafts catalysis has also been carried out using a supported zinc chloride reagent. Mesoporous silicas with zinc chloride incorporated have been synthesized with a high level of available catalyst. Variation in reaction conditions and relation of catalytic activity to pore size and volume were studied.640 Other supported catalytic systems include a zinc bromide catalyst that is fast, efficient, selective, and reusable in the /wa-bromination of aromatic substrates.641... 

Heinisch et al. described methods for detecting drugs containing chlorine, bromine, or iodine that can be extracted from acidic solutions with ether, then identified with TLC using 12 solvent systems and silica gel F254 plates [66]. 

Another example consider the adsorption of bromine on silica. We start by placing elemental bromine and silica at either end of a long sealed vessel. Having a relatively high vapour pressure, bromine volatilizes and molecules of bromine soon chemisorp onto the surface of the silica. When the chemisorbed monolayer is complete, successive layers of bromine form by physisorption. The first physisorbed layer is unique,... 

Undoubtedly, the best method for the production of pure anhydrous lanthanide trihalides involves direct reaction of the elements. However, suitable reaction vessels, of molybdenum, tungsten, or tantalum, have to be employed silica containers result in oxohalides (27). Trichlorides have been produced by reacting metal with chlorine (28), methyl chloride (28), or hydrogen chloride (28-31). Of the tribromides, only that of scandium has been prepared by direct reaction with bromine (32). The triiodides have been prepared by reacting the metal with iodine (27, 29, 31, 33-41) or with ammonium iodide (42). 

Kinetic results on the chlorination of aniline by A-chloro-3-methyl-2,6-diphenylpiperi-din-4-one (3) suggest that the protonated reagent is reactive and that the initial site of attack is at the amino nitrogen. The effects of substituents in the aniline have been analysed but product studies were not reported. Zinc bromide supported on acid-activated montmorillonite K-10 or mesoporous silica (100 A) has been demonstrated to be a fast, selective catalyst for the regioselective para-bromination of activated and mildly deactivated aromatics in hydrocarbon solvents at 25 °C. For example, bromobenzene yields around 90% of dibromobenzenes with an ortholpara ratio of 0.12. 

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