Butenes reaction + carbenes

The next propagation step involves propylene coordination to the surface carbene with formation of n-butene reaction (3) or isobutene reaction (4). The high selectivity for n-olefin, in our experiments as well as in conventional Fischer-Tropsch catalysts, must be accounted for by a selective coordination and (or) reaction of the olefin (21) according to reaction (3) which is probably due to the electrophilic character of the surface... 

Woodworth, based on the common reaction of addition of carbenes to double bonds to form cyclopropane derivatives (15-50). If the singlet species adds to cis-2-butene, the resulting cyclopropane should be the cis isomer since the movements of the two pairs of... 

Carbene itself is extremely reactive and gives many side reactions, especially insertion reactions (12-19), which greatly reduce yields. When it is desired to add CH2 for preparative purposes, free carbene is not used, but the Simmons-Smith procedure (p. 1088) or some other method that does not involve free carbenes is employed instead. Halocarbenes are less active than carbenes, and this reaction proceeds quite well, since insertion reactions do not interfere.The absolute rate constant for addition of selected alkoxychlorocarbene to butenes has been measured to range from 330 to 1 x 10 A few of the many ways in... 

The metal-catalysed olefin metathesis (equation 122) when applied to dienes results in ring-closure and expulsion of an olefin (equation 123). Thus the molybdenum carbene complex 241 promotes the decomposition of the 1,6-heptadiene derivative 242 to a mixture of the cyclopentene 243 and ethylene (equation 124)122. An analogous reaction of the alcohol 244 gives 245 (equation 125), and 4-benzyloxy-l,7-decadiene (246) affords the cyclohexene 247 and 1-butene (equation 126). These transformations, which occur in benzene at room temperature, proceed in excellent yields122. 

Vinylcarbene is known to close to cyclopropene.59 The reverse reaction is also possible Triplet-propene-l,3-diyl (frans-T-33 ) can be generated from cyclopropene 32 by irradiation in a bromine-doped xenon matrix at 10 K 1-methylcyclopropene (34) yields triplet-2-butene-l,3-diyl (Iruns-T-SS ).60-62 The concentration of 35 under these conditions is high enough to be able to detect this diradical IR spectroscopically. The experiments suggest that even the parent vinyl carbene 33 is detectable.61,62 Calculations ((U)B3LYP/6-31G )61,62 not only allow the comparison of theoretical and experimental IR spectra but also... 

Dimethyl-4-silacyclohexadienylidene (lv) is of interest as a potential source of silaxylene 24, however, all attempts to convert the carbene into an aromatic compound failed.107 The only isolated product from gas phase reactions is the dimer 25. In solution, carbene lv was found to add stereospecifically to cis-2-butene. With butadiene as trapping reagent both the products of the 1,2- and 1,4-addition 26 and 27, respectively, are observed (Scheme 21).107 In addition, silacyclopentene 28 is formed, which is the trapping product of cyclo-... 

The addition of carbenes is also a stereospecific reaction, each geometrical isomer forms the cis addition product. Thus carbene generated from the photolysis of diazomethane adds in a cis manner to both cis and trans butene-2. 

Both W(CO)5[C(C6Hs)2] and the analogous di-p-tolylmethylene complex have been used in model studies of the olefin metathesis reaction.2 3 In contrast to heteroatom-stabilized carbene complexes such as W(CO)s [C(OCH3)(C6Hs)], pentacarbonyl(diphenylmethylene)tungsten(0) reacts with alkenes to give cyclopropanes and 1,1-diphenylalkenes.2 The compound W(CO)5 [C(C6H5)2] is the best reported catalyst for the metathetical polymerization of 1-methylcyclo-butene.4... 

As early as 1964 Frey observed that the ratio of 1,1-dimethylcyclopropane and 2-methyl-2-butene, the products from intramolecular reactions of tert-butyl diazomethane, was strongly dependent on the method used to decompose the diazo compound (Table The response of the community of carbene chemists was... 

The two nonbonded electrons of a carbene can be either paired or unpaired. If they are paired, the species is spectrally a singlet, while, as we have seen (p. 193), two unpaired electrons appear as a triplet. An ingenious method of distinguishing between the two possibilities was developed by Skell,202 based on the common reaction of addition of carbenes to double bonds to form cyclopropane derivatives (5-50), If the singlet species adds to cis-2-butene, the resulting cyclopropane should be the cis isomer since the movements of... 

The most convincing evidence for this mechanism is that in the reaction between isobutene-1-I4C and carbene the product 2-methyl-1-butene was labeled only in the 1 position.236 This rules out a free radical or other free intermediate such as a carbocation or carbanion. If 28 (or a corresponding ion) were an intermediate, resonance would ensure that some carbene attacked at the 1 position ... 

A further stereochemical complication arises in those cases where a carbene having two different groups attached to the divalent carbon atom (e.g. PhCH ) adds in a stereospecifically cis-manner to olefins, such as cis-2-butene, to give two epimeric (syn- and anti-) products (cf. equation 1). Ratios of yields of syn- and tmtfi-products formed in a variety of carbenoid reactions are listed in Table 8. In general, the ratios... 

Reaction of dichloro(2,2,Ar,A-tetramethyl-3-buten-l-amine)palladium-(II) with CH2N2 gives the carbene insertion product, a-chloro-A-(chloromethyl)-c/,c-(2,2,jV,7V-tetramethyl-3-buten-l-amine(palladium(II)) (56), together with analogous ethoxymethyl and methyl complexes (127). 

More than half a century ago it was observed that Re207 and Mo or W carbonyls immobilized on alumina or silica could catalyze the metathesis of propylene into ethylene and 2-butene, an equilibrium reaction. The reaction can be driven either way and it is 100% atom efficient. The introduction of metathesis-based industrial processes was considerably faster than the elucidation of the mechanistic fundamentals [103, 104]. Indeed the first process, the Phillips triolefin process (Scheme 5.55) that was used to convert excess propylene into ethylene and 2-butene, was shut down in 1972, one year after Chauvin proposed the mechanism (Scheme 5.54) that earned him the Nobel prize [105]. Starting with a metal carbene species as active catalyst a metallocyclobutane has to be formed. The Fischer-type metal carbenes known at the time did not catalyze the metathesis reaction but further evidence supporting the Chauvin mechanism was published. Once the Schrock-type metal carbenes became known this changed. In 1980 Schrock and coworkers reported tungsten carbene complexes... 

When each stereoisomeric reactant forms a different stereoisomeric product the reaction is known as stereospecific reaction. For example, the addition of CBr2 (dibromo-carbene, prepared from bromoform and base) to ds-2-butene gives cis-2,3-dimethyl-l,l-dibromocyclopropane (1.32), whereas addition of CBr2 to the trans-isomer exclusively yields the trans-cyclopropane 1.33. 

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