Benzyl chloride groups

The syntheses of these initiators is described in Sect. II.C. According to detailed H1 NMR analysis hydrosilylation yielded 15-20% isomers along with the major products 1, 2, and 3 as shown in Figs. 1-3. The presence of the isomers, listed in Table 1, should not affect initiating efficiency by the benzyl chloride group, in view of the structure and virtually identical H1 NMR chemical shifts of the chloromethyl groups. 

In order to prepare the strong- or weak-base anion-exchange resins, the styrene-divinylbenzene copolymers are reacted with chloromethyl methyl ether, which converts the phenyl residues into benzyl chloride groups that are subsequently allowed to react with either secondary or tertiary amines. The chloromethyl groups supposedly become attached to the 4-position in the phenyl residues. Trimethylamine (Dowex-1, Amberlite IRA 400) and di-methylethanolamine (Dowex-2, Amberlite 410) are typical of the tertiary amines used in the preparation of commercial resins. The quaternary ammonium ion-exchange resins are highly ionized and can be used over the entire pYl range (14). 

An inverse manner of copolymerization was proposed by Watanabe et First, they polymerized TMC using 4-(chlor-omethyl)benzyl alcohol (CBA) as an initiator and DBU as an organocatalyst. The benzyl chloride group was involved in the incorporation of dithiocarbamate for pseudo-living radical polymerization of vinyl monomers. The authors applied N-isopropylacrylamide, acrylamide glycolic acid, and 2-hydroxyethyl methacrylate as vinyl monomers for the second step of copolymerization (Scheme 93). The resulting block... 

Hammen equation A correlation between the structure and reactivity in the side chain derivatives of aromatic compounds. Its derivation follows from many comparisons between rate constants for various reactions and the equilibrium constants for other reactions, or other functions of molecules which can be measured (e g. the i.r. carbonyl group stretching frequency). For example the dissociation constants of a series of para substituted (O2N —, MeO —, Cl —, etc.) benzoic acids correlate with the rate constant k for the alkaline hydrolysis of para substituted benzyl chlorides. If log Kq is plotted against log k, the data fall on a straight line. Similar results are obtained for meta substituted derivatives but not for orthosubstituted derivatives. 

The benzyl group has been widely used for the protection of hydroxyl functions in carbohydrate and nucleotide chemistry (C.M. McCloskey, 1957 C.B. Reese, 1965 B.E. Griffin, 1966). A common benzylation procedure involves heating with neat benzyl chloride and strong bases. A milder procedure is the reaction in DMF solution at room temperatiue with the aid of silver oxide (E. Reinefeld, 1971). Benzyl ethers are not affected by hydroxides and are stable towards oxidants (e.g. periodate, lead tetraacetate), LiAIH, amd weak acids. They are, however, readily cleaved in neutral solution at room temperature by palladium-catalyzed bydrogenolysis (S. Tejima, 1963) or by sodium in liquid ammonia or alcohols (E.J. Rcist, 1964). 

The phenylacetic acid derivative 469 is produced by the carbonylation of the aromatic aldehyde 468 having electron-donating groups[jl26]. The reaction proceeds at 110 C under 50-100 atm of CO with the catalytic system Pd-Ph3P-HCl. The reaction is explained by the successive dicarbonylation of the benzylic chlorides 470 and 471 formed in situ by the addition of HCl to aldehyde to form the malonate 472, followed by decarboxylation. As supporting evidence, mandelic acid is converted into phenylacetic acid under the same reaction conditions[327]. 

The selective monochlorination of the methyl group in toluene to give benzyl chloride with SO2CI2 is possible with catalysis by Pd(Ph3P)4[124],... 

Chloromethjlation Reactions. The introduction of the chloromethyl group to both aHphatic and aromatic compounds is carried out by reaction of paraformaldehyde [30525-89-4] and hydrogen chloride. This method is used for synthesizing methyl chloromethyl ether [107-30-2], benzyl chloride [100-44-7], and chloromethyl acetate. 

Substitution Reactions on the Methyl Group. The reactions that give substitution on the methyl group are generally high temperature and free-radical reactions. Thus, chlorination at ca 100°C, or in the presence of ultraviolet light and other free-radical initiators, successively gives benzyl chloride, benzal chloride, and benzotrichloride. 

The 2,4,6-trimethylbenzyl ester has been prepared from an amino acid and the benzyl chloride (Et3N, DMF, 25°, 12 h, 60-80% yield) it is cleaved by acidic hydrolysis (CF COOH, 25°, 60 min, 60-90% yield 2 N HBr/HOAc, 25°, 60 min, 80-95% yield) and by hydrogenolysis. It is stable to methanolic hydrogen chloride used to remove A-o-nitrophenylsulfenyl groups or triphenylmethyl esters. ... 

The stereoselective reactions in Scheme 2.10 include one example that is completely stereoselective (entry 3), one that is highly stereoselective (entry 6), and others in which the stereoselectivity is modest to low (entries 1,2,4, 5, and 7). The addition of formic acid to norbomene (entry 3) produces only the exo ester. Reduction of 4-r-butylcyclohexanone (entry 6) is typical of the reduction of unhindered cyclohexanones in that the major diastereomer produced has an equatorial hydroxyl group. Certain other reducing agents, particularly sterically bulky ones, exhibit the opposite stereoselectivity and favor the formation of the diastereomer having an axial hydroxyl groi. The alkylation of 4-t-butylpiperidine with benzyl chloride (entry 7) provides only a slight excess of one diastereomer over the other. 

The p-chloro analog of phentermine has much the same activity as the parent compound, with perhaps a somewhat decreased activity on the central nervous system. Alkylation of p-chloro-benzyl chloride with the carbanion obtained from treatment of 2-nitropropane with strong base affords the compound containing the required carbon skeleton (74). Catalytic reduction of the nitro group yields chlorphentermine (75). ... 

Condensation of normeperidine (81) with 3-chloropropan-l-ol affords the compound possessing the alcohol side chain (88). The hydroxyl is then converted to chlorine by means of thionyl chloride (89) displacement of the halogen by aniline yields pimino-dine (90). ° Condensation of the secondary amine, 81, with styrene oxide affords the alcohol, 91 removal of the benzyllic hydroxyl group by hydrogenolysis leads to pheneridlne (92). ... 

The treacheries inherent in naive attempts at pattern recognition are illustrated by the finding that ester known cetiedil, is said to be a peripheral vasodilator. Clemmen-sen reduction of Grignard product removes the superfluous benzylic hydroxyl group and esterification of the sodium salt of the resulting acid ) with 2- l-cycloheptylamino)ethyl chloride produces cetiedil (28). ... 

Intermediate 10 must now be molded into a form suitable for coupling with the anion derived from dithiane 9. To this end, a che-moselective reduction of the benzyl ester grouping in 10 with excess sodium borohydride in methanol takes place smoothly and provides primary alcohol 14. Treatment of 14 with methanesulfonyl chloride and triethylamine affords a primary mesylate which is subsequently converted into iodide 15 with sodium iodide in acetone. Exposure of 15 to tert-butyldimethylsilyl chloride and triethylamine accomplishes protection of the /Mactam nitrogen and leads to the formation of 8. Starting from L-aspartic acid (12), the overall yield of 8 is approximately 50%, and it is noteworthy that this reaction sequence can be performed on a molar scale. 

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