Vinylic moiety

Figure Bl.22.10. Carbon K-edge near-edge x-ray absorption (NEXAFS) speetra as a fiinotion of photon ineidenee angle from a submonolayer of vinyl moieties adsorbed on Ni(lOO) (prepared by dosing 0.2 1 of ethylene on that surfaee at 180 K). Several eleetronie transitions are identified in these speetra, to both the pi (284 and 286 eV) and the sigma (>292 eV) imoeeupied levels of the moleeule. The relative variations in the intensities of those peaks with ineidenee angle ean be easily eonverted into adsorption geometry data the vinyl plane was found in this ease to be at a tilt angle of about 65° from the surfaee [71], Similar geometrieal detenninations using NEXAFS have been earried out for a number of simple adsorbate systems over the past few deeades.

Macromonomers always lead to the formation of graft copolymers. For example, the vinyl-terminated polystyrene can be copolymerized with ethylene to produce a graft copolymer of polyethylene, whereby the vinyl moiety of polystyrene is integrally polymerized into the linear polyethylene backbone ... 

The cyclization of the homologous epoxide 36 under acidic conditions was also investigated (Table 9.5) [110]. As would be expected, compound 36a reacted by a 6-exo cyclization to give tetrahydropyran 38a (Entry 1). The a, 3-unsaturated hydroxy epoxide 36b gave a 1 3.5 mixture of oxepane 37b and tetrahydropyran 38b (Entry 2). Subjection of 36c and 36d, which both contain more electron-rich 71-systems, to the reaction conditions resulted in preferential 7-endo cyclization to give 37c and 37d, thus confirming the powerful regiodirecting effect of the vinyl moiety (Entries 3 and 4). 

When electron-withdrawing groups are introduced at the vinyl moiety, ary-lethenes may behave as dienophiles. Thus a-trifluoromethyl styrene (111) interacted with Danishefsky s diene (12b) under thermal or high pressure conditions [37] to regioselectively afford a 1 1 mixture of cycloadducts which were then converted to 4-phenyl-4-trifluoromethyl-2-cyclohexen-l-one (112) (Equation 5.12). A direct access to angularly trifluoromethyl-substituted tricyclic compounds may be achieved by cycloaddition of the l-trifluoromethyl-3,4-di-hydronaphthalene (113) with diene 12b (Equation 5.13). 

Allyl p-tolyl sulphoxide 535 reacts with sodium methoxide in methanol by initial prototropic isomerization and subsequent addition of methanol to give 536 (equation 333). Protic solvents are photochemically incorporated by the open chain olefinic bond of trans methyl )S-styryl sulphoxide 537 in a Markovnikov regiospecificity (equation 334). Mercaptanes and thiophenols add to vinyl sulphoxides in a similar manner (compare also Reference 604 and Section IV.B.3) to give fi-alkylthio(arylthio)ethyl sulphoxides 538 (equation 335). Addition of deuteriated thio-phenol (PhSD) to optically active p-tolyl vinyl sulphoxide is accompanied by a low asymmetric a-induction not exceeding 10% (equation 336) . Addition of amines to vinyl sulphoxides proceeds in the same way giving )S-aminoethyl sulphoxides in good to quantitative yields depending on the substituents at the vinyl moiety When optically active p-tolyl vinyl sulphoxides are used in this reaction, diastereoisomeric mixtures are always formed and asymmetric induction at the p- and a-carbon atoms is 80 20 (R = H, R = Me) and 1.8 1 (R = Me, R = H), respectively (equation 337) ... 

Zimmerman suggests that initial interaction between the vinyl moieties leads to a butadiene type array of p orbitals (Et 58 kcal/mole, butadiene) and that this array is of lower energy than the array formed by benzo-vinyl interaction (Et ss 64 kcal/mole, styrene) ... 

Vinyltin compounds are very important in organic synthesis, since the vinyl moiety can be readily transferred to carbon in the (palladium-catalyzed) Stille reaction. The transfer is stereospecific, and the geometry of the vinyltin moiety can be easily checked using proton and carbon-13 NMR via the coupling satellites. 

Still another way to picture the conformational preferences is to visualize the C=C double bond in terms of two equivalent banana bonds (Fig. 3.50). In this picture the preferred conformations are those with C—F in staggered orientation with respect to the three bonds (two banana bonds and one C—H bond) of the vinyl moiety, analogous to the preferred conformations of ethane. However, in using this ethane-like mnemonic one should recall that its essential origin lies in the hyperconjugative interactions of E(SL> rather than the steric and electrostatic interactions of (L). 

Triorganovinylsilanes can be used as silylating reagents. In this case, the vinyl moiety functions as a hydrogen acceptor. The Ru3(CO)i2-catalyzed reaction of 3-acetylthiophene with trimethylvinylsilane affords 3-acetyl-2-(tri-methylsilyl)thiophene in 64% yield, as shown in Scheme 15.148 This reaction involves a /3-silyl elimination, yielding a metal species. 

The analogous process involving allylic epoxides is more complex, as issues such as the stereochemistry of substituents on the ring and on the alkene play major roles in determining the course of the reaction [38]. Addition of the Schwartz reagent to the alkene only occurs when an unsubstituted vinyl moiety is present and, in the absence of a Lewis acid, intramolecular attack in an anti fashion leads to cyclopropane formation as the major pathway (Scheme 4.10). cis-Epoxides 13 afford cis-cyclopropyl carbinols, while trans-oxiranes 14 give mixtures of anti-trans and anti-cis isomers. The product of (S-elimi-... 

The aryl groups of the styryl systems need not be unsubstituted, as has been illustrated before for the cyclizations encountered in the synthesis of naphthalenophanes from 120. Indeed cyclization to afford a cyclobutane derivative where methoxy groups are on the adjacent ring position to the vinyl moieties has also been studied. The irradiation of 138 affords the m-cyclophanes 139 and 14065. Further study has sought to evaluate the steric effect of o-methoxy groups in such molecules66. 

The reaction in its basic form is illustrated by the conversion of 274 into 275. This transformation shows the control exercised within the two biradicals A and B on the final outcome of the reaction151. Another typical di-jr-methane process, this time with electron-withdrawing substituents on one of the vinyl moieties, arises on acetophenone-sensitized irradiation of the diene 276. This yields the cyclopropane 277 in 35% yield. The... 

C-H activation remains an important topic for catalysis even after thirty years of intensive research. The potential shortcuts it offers for many present routes to a wide variety of chemicals that are produced will continue to inspire industrial and academic research [32], An interesting example involves the enantiospecific, coordination-directed C-H bond functionalisation in the synthesis of a natural product, rhazinilam, an anti-tumor agent. The resulting vinyl moiety obtained in the dehydrogenation was subsequently carbonylated to form a cyclic amide [33],... 

Along with homopolymerization, copolymerization has also been studied within the framework of initiation by tris(4-bromophenyl)ammoniumyl hexachloroantimonate (Bauld et al. 1998a). Generally, cation-radical cycloaddition occurs more efficiently when the reactive cation-radical is the ionized dienophile (Bauld 1989, 1992). In the cited work on copolymerization, the bis(diene) was chosen to be resistant against ionization by the initiator used. As to the dienophile functionality, propenyl rather than vinyl moieties were selected because terminal methyl groups sharply enhance the ionizability of the alkene functions. The polymerization shown in Scheme 7.18 was performed in dichloromethane at 0°C. 

Being aware of the fact that a hetero-substituted carbon-carbon double bond is convertible into a carbonyl group, one can use a-hetero-substituted lithio-alkenes 2 as nucleophilic acylation reagents 142 and 143, which display the umpoled d reactivity, provided that the carbanionic character is effective. Depending on the hetero-snbstitnent X, the conversion of the vinyl moiety into a carbonyl gronp can be effected either by hydrolysis or by ozonolysis. The former procednre has been applied preferentially in the case of lithiated vinyl ethers, whereas the latter has been nsed in particnlar for cleavage of the double bond in such products that result from the reaction of hthiated vinyl bromides with electrophiles (Scheme 17). 

In sharp contrast to the unique pattern for the incorporation of carbon monoxide into the 1,6-diyne 63, aldehyde 77 was obtained as the sole product in the rhodium-catalyzed reaction of 1,6-enyne 76 with a molar equivalent of Me2PhSiH under CO (Scheme 6.15, mode 1) [22]. This result can be explained by the stepwise insertion of the acetylenic and vinylic moieties into the Rh-Si bond, the formyl group being generated by the reductive elimination to afford 77. The fact that a formyl group can be introduced to the ole-finic moiety of 76 under mild conditions should be stressed, since enoxysilanes are isolated in the rhodium-catalyzed silylformylation of simple alkenes under forcing conditions. The 1,6-enyne 76 is used as a typical model for Pauson-Khand reactions (Scheme 6.15, mode 2) [23], whereas formation of the corresponding product was completely suppressed in the presence of a hydrosilane. The selective formation of 79 in the absence of CO (Scheme 6.15, mode 3) supports the stepwise insertion of the acetylenic and olefmic moieties in the same molecules into the Rh-Si bond. 

Ring-closure reactions that involve a /-amino group on a 1,2-diazine skeleton and a vinyl moiety in its t>/// t>-position occur via the so-called /-amino effect. Although this reaction does not involve reaction at the nitrogen atom itself, it is a very specific reaction that can only occur on /-amines and is therefore incorporated in this section. The reaction... 

It was shown <1998CCC681> that [l]benzothieno[3,2-3]furan 60, due to its low furan aromaticity, possesses dienophilic behavior and reacts with electron-rich dienes with the formation of a new heterocyclic system [l]ben-zothieno[3,2-3][l]benzofuran 93. Furthermore, it was reported <1999CCC389> that introduction of a vinyl moiety at C-2 of 57 created a reactive diene 94, which reacted with various dienophiles. Thus, both cycloaddition reactions led to new derivatives of heterocycle 93 substituted in the benzofuran part of the heterocyclic system (Scheme 10). 

The position of the propyl group in 79 is fixed by intramolecular chelation between the ether oxygen and the zinc atom, and the allyl part approaches the vinyl moiety anti to the propyl group. High diastereoselectivity can also be achieved by chelation in a six-membered ring443. 

Polymerized SUVs prepared from surfactants containing styrene or vinyl moieties retained their phase transition behavior. Conversely, polymerized SUVs prepared from diacetylenic surfactants lost their phase transitions and those of methacrylamide surfactants had lower phase transition temperatures... 

The Nazarov reaction [196] is a conrotatory electrocyclization involving four electrons over a five-carbon span. Usually, a more highly substituted cyclopentenone is obtained. However, contrathermodynamic products may be generated by placing a silyl group at the p-position of a bare vinyl moiety in the cross-conjugated dienone [197]. The acceptor facilitates and controls the regiochemistry of the cyclization process. 

Madelmont and Veyre have reported the preparation of (206) from cyanuric chloride (75MI22002). The compound is valuable in the dynamic exploration of the lymphatic system, when it is prepared using radioactive isotopes of iodine. 2,4-Dichloro-l,3,5-triazines containing a secondary amino group with a vinylic substituent have promise in binding dental resins to biological tissues. The chlorines react with the dentine tooth enamel whilst the vinyl moiety bonds to the resin (75GEP2630745). 

Figure 7b is an IET spectrum of plasma alumina immersed for 90 s in 0.5 vol.% DMVES in acetone. Bands characteristic of methyl and vinyl moieties... 

The Z-configuration of the vinyl moiety of pyrroles 99 corresponds to the latter scheme, since nucleophilic addition to the triple bond normally occurs as a concerted trans-process (78MI2). 

Reaction of the dilithio anion of 1-vinylbenzotriazole 90 with 2equiv of an aryl isocyanate led to a fused 1,4-diazepine ring formation via an intramolecular Michael addition of the intermediate aryl amide to the vinyl moiety, a type c ring closure that proceeded in good overall yield (Scheme 44) <2003JOC5713>. 

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