Elimination reaction of compound

The structure of the substrate also plays an important role. The elimination reaction of compounds [174] in t-butyl alcohol promoted by KOt-Bu at 30°C... 

Scheme 20 Elimination reaction of compound 49. Reagents and conditions (a) K2CO3, MeOH/ H20, 80°C, 80% (b) K2C03, MeOH/H20, rt, 94%...

Chapter 12, the substitution and elimination reactions of compounds with leaving groups that are harder to displace. 

Alkyl halides are a good family of compounds with which to start the study of substitution and elimination reactions because they have relatively good leaving groups that is, the halide ions are easily displaced. After learning about the reactions of alkyl halides, you will be prepared to move on to Chapter 11, which discusses the substitution and elimination reactions of compounds with poorer leaving groups (those that are more difficult to displace). 

Simple cyclobutanes do not readily undergo such reactions, but cyclobutenes do. Ben-zocyclobutene derivatives tend to open to give extremely reactive dienes, namely ortho-c]uin(xlimethanes (examples of syntheses see on p. 280, 281, and 297). Benzocyclobutenes and related compounds are obtained by high-temperature elimination reactions of bicyclic benzene derivatives such as 3-isochromanone (C.W. Spangler, 1973, 1976, 1977), or more conveniently in the laboratory, by Diels-Alder reactions (R.P. Thummel, 1974) or by cycliza-tions of silylated acetylenes with 1,5-hexadiynes in the presence of (cyclopentadienyl)dicarbo-nylcobalt (W.G, Aalbersberg, 1975 R.P. Thummel, 1980). 

BU3P. A rapid redox reaction takes place to yield the active Pd(0) species and tributylphosphine oxide. The Pd(0) thus generated is a phosphine-free cata-lyst[341]. Severe reaction conditions are necessary, or no reaction takes place, when Pd2(dba)3 is used in the elimination reaction of cyclic allylic compounds with an excess of -Bu3P[342]. 

Elimination reactions of fluorine compounds are not limited to the removal of simple molecules Frequently, large molecules or combination of smaller ones are formed as by-products, especially in pyrolytic reactions For example perhalo genated acid chlorides lose not only carbon monoxide but also chlorine fluoride [106, 107] (equations 74 and 75)... 

Bischler-Napieralski reaction conditions can be attributed, again, to the destabilizing ability of the trifluoromethyl group to the cationic transition state of the acid catalyzed elimination. Formation of compound 29 was ultimately accomplished by base catalyzed methanol elimination-conditions conditions that are quite unusual for isoquinoline formation. 

The cycloaddition reaction of compound 6 with N-aryl- and N-aralkylazides 23 was also investigated (967(52)7183). Thiadiazabicyclo[3.1.0]hexene derivatives 25 were obtained from the labile triazoline intermediate 24 through nitrogen elimination. This bicyclic system underwent thermal transformation, producing thiadiazine dioxides 26 as the main product together with thiazete dioxides 27 and pyrazoles 28. 

Volume 8 Volume 9 Volume 10 Volume 12 Volume 13 Proton Transfer Addition and Elimination Reactions of Aliphatic Compounds Ester Formation and Hydrolysis and Related Reactions Electrophilic Substitution at a Saturated Carbon Atom Reactions of Aromatic Compounds Section 5. POLYMERISATION REACTIONS (3 volumes)... 

The first compound is an antibiotic isolated from Streptomyces aureus [20], while the second compound is a cytotoxic antibiotic isolated from Dysidea fragilis, a marine sponge [21]. A logical approach to the synthesis of azirines would be an elimination reaction of a suitably M-substituted aziridine. Thus, AT-chlorination of aziridine-2-carboxylic esters was carried out using ferf-butyl hypochlorite (Scheme 8). 

Addition-elimination reactions of palladium compounds with olefins... 

Treatment of 51 with an excess of sodium benzoate in DMF resulted in substitution and elimination, to yield the cyclohexene derivative (228, 36%). The yield was low, but 228 was later shown to be a useful compound for synthesis of carba-oligosaccharides. <9-Deacylation of228 and successive benzylidenation and acetylation gave the alkene 229, which was oxidized with a peroxy acid to give a single epoxide (230) in 60% yield. Treatment of 230 with sodium azide and ammonium chloride in aqueous 2-methoxyeth-anol gave the azide (231,55%) as the major product this was converted into a hydroxyvalidamine derivative in the usual manner. On the other hand, an elimination reaction of the methanesulfonate of 231 with DBU in toluene gave the protected precursor (232, 87%) of 203. 

The addition-elimination reaction of hetero-atom-substituted nitroalkenes provides functionalized derivatives of unsaturated nitro compounds.26 Nitroenamines are generally prepared from a-nitro ketones and amines (see Chapter 5 regarding acylation of nitro compounds).26... 

Reaction of compound 37 with bromine in chloroform results in mono-bromination a to the sulfur. Treatment of this brominated derivative with NaBH3CN in AcOH gives a mixture of products resulting from reduction of the C=N double bond and of elimination of HBr. Reaction of 44 with sodium ethoxide results in the ethoxy-substituted derivative 45, whereas reaction with pyridine gives the dehydrobrominated derivative 46. Reaction of either 44 or 46 with sodium cyanide in dimethyl sulfoxide (DMSO) gives the cyano-derivative 47 <1983HCA971> (Scheme 13). 

Cyclobutane derivatives are involved in all known syntheses of the parent [4]radialene (Scheme 8). The first approaches used /1-elimination reactions on compounds 5836, 5936 and 6036- 38 to introduce all four exocyclic C=C bonds in one operation. 

The probable pathway resulting in the stereoselective formation of silylated ene nitrile (586) from enoxime (584) is presented on the right of Scheme 3.282. At higher temperature, the latter eliminates trimethylsilanol to give ene-nitrile (586) under the action of silyl Lewis acid (TfOSiMe3). Evidently, the reaction of compound (585) with TfOSiMe3 at room temperature involves initial silylation of the nitrogen atom to form the cationic intermediate B, which is deprotonated with triethylamine, followed by the thermodynamically favorable l,3-N,C-shift... 

The stereoselective elimination reaction of suitably substituted allylic compounds is a reasonable approach to the construction of the propadiene framework. Central chirality at the allylic position is transferred to axial chirality of the allene by stereoselective /3-elimination (Scheme 4.53). 

Elimination Reactions of Allylic Compounds Having a Chiral Leaving Croup... 

---