Methylene cyclohexane

The (TMS)3SiH mediated addition of phosphorus-centered radicals to a number of alkenes has been investigated in some detail. Reaction (73) is an example of phosphorous-carbon bond formation using four structurally different phenylseleno derivatives with 3 equiv of (TMSlsSiH and AIBN in refluxing benzene for 2h. Comparative studies on the reaction of the four phosphorus-centered radicals have been obtained. Although the reaction with 1-methylene cyclohexane is efficient with all four derivatives, different selectivity is observed with electron-rich or electron-poor alkenes. 

What are the mechanisms of 5.1-catalyzed isomerizations of 2-hexene to 3-hexene, and 1-methyl cyclohexene to 1-methylene cyclohexane Suggest an experiment. 

Ans. For both, insertion followed by /3-elimination. For 1-methyl cyclohexene insertion in a Markovnikov manner, while for 2-hexene anti-Markovni-kov and Markovnikov are indistinguishable. A D label on the methyl of 1-methyl cyclohexene should result in D scrambling of the 1,2,6 positions of 1-methylene cyclohexane. 

A reaction that introduces a second chirality center into a starting material that already has one need not produce equal quantities of two possible diastereomers Con sider catalytic hydrogenation of 2 methyl(methylene)cyclohexane As you might expect both CIS and trans 1 2 dimethylcyclohexane are formed... 

The relative amounts of the two products however are not equal more as 1 2 dimethyl cyclohexane is formed than trans The reason for this is that it is the less hindered face of the double bond that approaches the catalyst surface and is the face to which hydro gen IS transferred Hydrogenation of 2 methyl(methylene)cyclohexane occurs preferen tially at the side of the double bond opposite that of the methyl group and leads to a faster rate of formation of the cis stereoisomer of the product... 

The double bond m 2 methyl(methylene)cyclohexane is prochiral The two faces however are not enantiotopic as they were for the alkenes we discussed m Section 7 9 In those earlier examples when addition to the double bond created a new chirality cen ter attack at one face gave one enantiomer attack at the other gave the other enantiomer In the case of 2 methyl(methylene)cyclohexane which already has one chirality center attack at opposite faces of the double bond gives two products that are diastereomers of each other Prochiral faces of this type are called diastereotopic... 

The hydrogenation of 2 methyl(methylene)cyclohexane is an example of a stereo selective reaction meaning one m which stereoisomeric products are formed m unequal amounts from a single starting material (Section 5 11)... 

The preceding method may be applied to an equivalent amount of methylene cyclohexane (7.7 g) with analogous results. The product, cyclohexylcarbinol, has bp 91-92723 mm. 

Klein showed that axial reaction of the parent methylenecyclohexane 37 is preferred in hydroboration [106], The experimental data on the parent methylenecyclohexanone 37a accumulated by Senda et al. [107] and the more recent systematic studies by Cieplak et al. [108, 109] on jr-facial selectivities of 3-substituted methylene-cyclohexanes 37 have characterized the intrinsic features of the facial selection of methylenecyclohexanes. That is, axial preference of unsubstituted and 3-substituted methylenecyclohexanes was observed in oxymercuration [107] and epoxidation reactions [110], There is also an increase in the proportion of axial attack with increase in the electronegativity of the remote 3-equatorial... 

Structurally novel /3-lactams were obtained using enantiopure 4-oxoazetidine-2-carbaldehydes and methylene cyclohexane and a-methyl styrene (Equation (4)).7 Boron trifluoride diethyletherate and tin(iv) chloride produced the products in the highest yields, and all ene products possessed yy/z-stereochemistry. 

Chiral bisoxazolines (box) ligands have been attached to a polyethylene glycol (PEG) matrix 25.24 The supported ligands were tested on a variety of reactions for their enantioselectivity. The carbonyl-ene reaction between a-methyl styrene or methylene cyclohexane (26, Equation (15)) and ethylglyoxalate 12 afforded the corresponding ene adduct 27 in 96% and 91% yield and 95% and 85% ee, respectively. 

An enantioselective imino-ene reaction was developed by Lectka to provide ct-amino acid derivatives.27 Aryl alkenes (cr-methyl styrene, tetralene), aliphatic alkenes (methylene cyclohexane), and heteroatom-containing enes, all gave high yields and high ee s of the homoallylic amides (Equation (17)). The mechanism of this reaction has been proposed to proceed through a concerted pathway. This mechanism is evidenced by a large kinetic isotope effect observed in the transfer of H(D). 

To explore the mechanism of allylic hydroxylation, three probe substrates, 3,3,6,6-tetradeuterocyclohexene, methylene cyclohexane, and /l-pinenc, were studied (113). Each substrate yielded a mixture of two allylic alcohols formed as a consequence of either retention or rearrangement of the double bond. The observation of a significant deuterium isotope effect (4-5) in the oxidation of 3,3,6,6-tetradeuterocyclohexene together with the formation of a mixture of un-rearranged and rearranged allylic alcohols from all three substrates is most consistent with a hydrogen abstraction-oxygen rebound mechanism (Fig. 4.48). 

Trimethylsilyloxy)methylene]cyclohexane Silane, (cyclohexylidene-, methoxy)trimethyl- (9) (53282-55-6)... 

Trimethylsilyloxy)methylene]cyclohexane was prepared from the corresponding carboxaldehyde according to the method of House.4a b Cyclohexane carboxaldehyde was obtained from the Aldrich Chemical Company, Inc., and purified by distillation at atmospheric pressure (bp 160-164°C). 

A different stereochemical pattern is evident in the hydrogenation over a platinum catalyst of 2-, 3-, or 4-alkyl-substituted methylene-cyclohexanes (57,63,64). With these compounds increasing, the pressure of hydrogen decreases the proportion of the more unstable saturated isomer in the product (cis-1,2-, tmn -l,3-, or cis-l,4-dialkylcyclohexane), a result which is not consistent with a mechanism involving an isomerization to an olefin which yields a proportion of cis and trans isomers different from that given by the methylenecyclohexane. For such a mechanism implies that the hypothetical olefin would yield a larger portion of the more unstable saturated isomer than is obtained from the initial reactant. 

The origin of stereofacial selectivity in electrophilic additions to methylene-cyclohexanes (2) and 5-methylene-l,3-dioxane (3) has been elucidated experimentally (Table 2) and theoretically. Ab initio calculations suggest that two electronic factors contribute to the experimentally observed axial stereoselectivity for polarizable electrophiles (in epoxidation and diimide reduction) the spatial anisotropy of the HOMO (common to both molecules) and the anisotropy in the electrostatic potential field (in the case of methylenedioxane). The anisotropy of the HOMO arises from the important topological difference between the contributions made to the HOMO by the periplanar p C-H a-bonds and opposing p C—O or C—C cr-bonds. In contrast, catalytic reduction proceeds with equatorial face selectivity for both the cyclohexane and the dioxane systems and appears to be governed largely by steric effects. ... 

Among the electron-rich alkenes, vinylsulfides are especially amenable to cation-radical reduction an important feature is the absence of hydrogenolysis of carbon-sulfur bonds. The reduction of [(phenylthio)methylene]cyclohexane is efficient (88%), and the retention of the phenylthio group clearly contrasts with catalytic hydrogenation (Mirafzal et al. 1993). This provides versatile functionality for further synthetic operations. 

Die Cyclisierung von 5-Methyl-5-hexenal-benzylimin in Gegenwart von Zinn(IV)-chIorid ergibt l-Benzylamino-3-methylen-cyclohexan, das unter Abspaltung der Benzyl-Gruppe katalytisch zu l-Amino-3-methyl-cyclohexan hydriert werden kann1. 

Methylene chloride as solvent for diazomethane etherifications, 41, 9 Methylene cyclohexane, 40, 66 Methylene iodide, reaction with zinc-copper couple and cyclohexene, 41, 73... 

The absorption frequency of external exocyclic bonds increases with decreasing ring size. Methylene-cyclohexane absorbs at 1650 cm-1, methylenecyclopro-pane at 1781 cm-1. 

Stereospecific hydrogenation of a methylene cyclohexane (2).1 Hydrogenation of 2 with a heterogeneous catalyst results in preferential addition of H2 from the less hindered side to give mainly 4 (R = H). Hydrogenation with the homogeneous... 

The photo-induced electron transfer of l,4-bis(methylene)cyclohexane in acetonitrile-methanol solution with 1,4-dicyanobenzene (DCB) affords two products, both consistent with nucleophilic attack on the radical cation followed by reduction and protonation or by combination with DCB ).63 In the absence of a nucleophile, the product mixture is highly complex, as is the case under electro-oxidative conditions. Under UV irradiation, /nmv-stilbene undergoes dimerization and oxygenation (to benzaldehyde) by a single-electron mechanism in the presence of a sensitizer such as 2,4,6-triphenylpyrilium tetrafluoroborate (TPT).64 This reaction was found to yield a similar product mixture with the sulfur analogue of TPT and their relative merits as well as electrochemical and photophysical properties are discussed. 

---