Cyclohexane activation

Furthermore, intramolecular cyclization of acyclic chiral imines, in which the imine and the enone groups are separated by alkyl chains, yield optically active cyclohexane and cyclopentane derivatives. /ra .v-l,2-Disubstitutcd carbocyclic compounds are exclusively or predominantly formed with diastereomeric ratios in the range 80 20 100 0, strongly dependent on the conditions used to induce cyclization, i.e. heat, pressure or Lewis acid (MgBr2) catalysis227. 

Zhao et al. achieved selectivities of about 90% in a process to activate cyclohexane. In this first study with gold-supported catalysts, temperatures of 140-160 °C were... 

Control of the stereochemistry of the Diels-Alder reaction by means of a chiral center in the substrate is a versatile means of synthesizing cychc systems stereoselec-tively [347]. For preparation of ring systems with multi-stereogenic centers, in particular, the diastereoselective Diels-Alder reaction is, apparently, one of the most dependable methods. The cyclization of optically active substrates has enabled asymmetric synthesis. Equation (147) shows a simple and very efficient asymmetric Diels-Alder reaction, starting from commercially available pantolactone [364,365], in which one chlorine atom sticking out in front efficiently blocks one side of the enone plane. A fumarate with two chiral auxiliaries afforded virtually complete stereocontrol in a titanium-promoted Diels-Alder reaction to give an optically active cyclohexane derivative (Eq. 148) [366,367]. A variety of diastereoselective Diels-Alder reactions mediated by a titanium salt are summarized in Table 13. 

No. Type Added Pt activity (cyclohexane test, / moles/sec./g.) Cumene test activity, /jmoles/seo./g. 

Fig. 2. Relationship between temperature requirement for reforming naphtha to 98 O.N. level and dehydrogenation activity (cyclohexane test).

Platinum was deposited by impregnation into the framework of y-alumina membrane tubes with an asymmetric configuration, using ammoniac-hexachloroplatinic solutions at different pH values and dipping times. Metallic platinum was obtained after calcination and reduction. The microstructure of the membranes was studied by SEM and BET their gas permeabilities were measured as well. The heat delivered during the formation of PtO on membranes prepared in different conditions were measured in order to compare their activities. Cyclohexane dehydrogenation reaction was carried out on these membranes. Tlie effect of the preparation conditions on the catalytic activities is discussed. 

The intrinsic volume of activation was estimated to correspond to the molar volume difference between cyclohexene and cyclohexane, adding the molar volume difference between ethane and ethene to account for... 

From stochastic molecnlar dynamics calcnlations on the same system, in the viscosity regime covered by the experiment, it appears that intra- and intennolecnlar energy flow occur on comparable time scales, which leads to the conclnsion that cyclohexane isomerization in liquid CS2 is an activated process [99]. Classical molecnlar dynamics calcnlations [104] also reprodnce the observed non-monotonic viscosity dependence of ic. Furthennore, they also yield a solvent contribntion to the free energy of activation for tlie isomerization reaction which in liquid CS, increases by abont 0.4 kJ moC when the solvent density is increased from 1.3 to 1.5 g cm T Tims the molecnlar dynamics calcnlations support the conclnsion that the high-pressure limit of this unimolecular reaction is not attained in liquid solntion at ambient pressure. It has to be remembered, though, that the analysis of the measnred isomerization rates depends critically on the estimated valne of... 

Reactions. The methylene group in the 2 position in 5,5-dimethyl-cyclohexan-i,3-dione (V) is strongly activated by the... 

The activation energy for cyclohexane ring inversion is 45 kJ/mol (10 8 kcal/mol) It IS a very rapid process with a half life of about 10 s at 25°C... 

Structures A and A are nonsuperimposable mirror images of each other Thus although as 1 2 dichloro cyclohexane is chiral it is optically inactive when chair-chair interconversion occurs Such interconver Sion IS rapid at room temperature and converts opti cally active A to a racemic mixture of A and A Because A and A are enantiomers interconvertible by a conformational change they are sometimes re ferred to as conformational enantiomers... 

Hydrogenation of benzene and other arenes is more difficult than hydrogenation of alkenes and alkynes Two of the more active catalysts are rhodium and platinum and it IS possible to hydrogenate arenes m the presence of these catalysts at room temperature and modest pressure Benzene consumes three molar equivalents of hydrogen to give cyclohexane... 

For a second active carbon, AG, the DR plot was convex to the logio(p7p) This carbon was believed from X-ray results to have a wider distribution of pores. It was found that the isotherms of both benzene and cyclohexane could be interpreted by postulating that the micropore system consisted of two sub-systems each with its own Wq and and with m = 2 ... 

A second class of herbicides primarily affects ( -carotene desaturase. These herbicides are apparent feedback inhibitors of PD as well. This class of compounds includes dihydropyrones like LS 80707 [90936-96-2] (56) and 6-methylpyridines (57,58). The third class consists of the ben2oylcyclohexane-diones, eg, 2-(4-chloro-2-nitroben2oyl)-5,5-dimethyl-cyclohexane-I,3-dione. This class of atypical bleaching herbicides induces phytoene accumulation when appHed either pre- or post-emergence. However, it does not inhibit phytoene desaturase activity in vitro (59). Amitrole also has been considered a bleaching herbicide, though its main mode of action is inhibition of amino acid synthesis. 

Isomerization of cyclohexane in the presence of aluminum trichloride catalyst with continuous removal of the lower boiling methylcyclopentane by distillation results in a 96% yield of the latter (54). The activity of AlCl -HCl catalyst has been determined at several temperatures. At 100°C, the molar ratio of methylcyclopentane to cyclohexane is 0.51 (55). 

Tri-n-octylphosphine oxide [78-50-2] M 386.7, m 59.5-60°, pK jt <0. Mason, McCarty and Peppard [J Inorg Nuclear Chem 24 967 7962] stirred an O.IM solution in benzene with an equal volume of 6M HCl at 40° in a sealed flask for 48h, then washed the benzene solution successively with water (twice), 5% aq Na2C03 (three times) and water (six times). The benzene and water were then evaporated under reduced pressure at room temperature. Zingaro and White [J Inorg Nucl Chem 12 315 7960] treated a pet ether solution with aqueous KMn04 (to oxidise any phosphinous acids to phosphinic acids), then with sodium oxalate, H2SO4 and HCl (to remove any manganese compounds). The pet ether solution was slurried with activated alumina (to remove phosphinic acids) and recrystd from pet ether or cyclohexane at -20°. It can also be crystd from EtOH. 

The racemate has m 163-164°, and the free base recryst from cyclohexane has m 96°. [Howe and Shanks Nature 210 1336 7966.] The S-isomer (below) is the physiologically active isomer. 

The layer was prewashed twice before application of the samples by developing first with cyclohexane and then, after drying for 30 min at 120°C, with methanol it was finally activated for 30 min at 120 °C. 

Recendy, Darzens reaction was investigated for its synthetic applicability to the condensation of substituted cyclohexanes and optically active a-chloroesters (derived from (-)-phenylmenthol). In this report, it was found that reaction between chloroester 44 and cyclohexanone 43 provided an 84% yield with 78 22 selectivity for the axial glycidic ester 45 over equatorial glycidic ester 46 both having the R configuration at the epoxide stereocenter. 

A further simplification of the requirements for activity came from the preparation of two spasmolytic agents that completely lack the aromatic ring. Thus, double alkylation of phenylace-tonitrile (54) with 1,5-dibromopentane leads to the corresponding cyclohexane (55). This intermediate is then saponified and the resulting acid (56) esterified with w,w-diethylethanolamine. Catalytic reduction of the aromatic ring affords dicyclonine (51). ... 

---