Selenides alkenes from

Alkenes from p-oxygenated selenidesS /J-Phenylseleno lactones, ethers, and alcohols are converted into alkenes on treatment with ClSi(CHj)j and Nal in C HiCN. Hydriodic acid (formed by inadvertent hydrolysis) may play a role this acid cun effect this reaction, but in lower yield. This elimination thus reverses cyclo-(unclionali/ations induced by C6H5ScX (cf Na-NH3, 9, 26), and in addition provides a stereospecific route to alkenes by way of/l-hydroxv selenides. lixnmplc ... 

Alkenes from organomercurials.1 Photoinitiated reaction of diphenyl diselenide with the organomercurial 1 provides a mixture of the corresponding a- and P-phenyl selenides, which undergo oxidative elimination to 2. The reaction provides a key step in a total synthesis of K-76 (3), which counteracts the inflammatory... 

Table 6. /8-Trifluoroaceloxy Selenides 39 from Alkenes and Benzenese-lenenyl Trifluoroacctate51...

The reactions are usually easier with methylseleno than with pheiwlseleno, P Chlorophenylsele no or (p-trifluoromethyl)phenylseleno derivatives, and allenes and alkylidenecyclopropanes are much more difficult to synthesize than other alkenic compounds. Thus, although allyl selenides resulting from selective elimination of the hydroxy and the methylseleno moiety are usually produced from P-(methylseleno)-p -(phenylseleno) alcohols, - - in the case of l-seleno-l-(r-hy[Pg.702]

The stereoisomeric mixture of -hydroxyalkyl selenides resulting from the reaction of the a-selenoalkyllithium and the carbonyl compound has been often cleanly and easily separated into its constituents by liquid chromatography on silica gel (Schemes 124,133,134, and 170 172).200.206.222,226,229,258 59 jj,jg has, therefore, allowed the synthesis of each of the two stereoisomers of various di- and tri-substituted alkenes (Schemes 124,170 and 171 Scheme 172, a) and epoxides (Scheme 124 Scheme 172, b), which are otherwise obtained as intractable mixtures of stereoisomers through the conventional phosphorus or sulfur ylide methods. Last but not least, 2-lithio-2-methylselenopropane can be used as the precursor of various compounds bearing gem dimethyl substituted carbons, such as squalene, oxido-squalene, lanosterol and cholesterol. Use of commercially available perdeuterated or Ci or — 2 acetone allows the straightforward synthesis of the corresponding labelled compounds... 

Alkenes from sic-dihaiides. The reaction of n c-dihalides with NaSeCH3 or NaSeC6H5 in ethanol or THF-HMPT (3 1) results in alkenes. The reaction involves a formal anti-elimination in the case of wc-dibromides or uic-chloroiodides, but a formal syn-elimination in the case of w c-dichlorides. Elimination to form alkenes also occurs with /1-haloalkyl phenyl selenides. 

Alkynes can be transformed into alkenylstannanes by reaction with stannyl-cuprates. It is possible to trap the 1,2-dimetallic alkene species with various electrophiles. The analogous vicinal difunctionalization of alkynyl selenides " has also been reported. A route to trisubstituted alkenes from phenylthioacetylene"" starts with cuprate addition, but a 1,2-metal rearrangment is involved. Enamines are obtained from N-ethynyldiphenylamine. The alkenylcopper intermediate is also reactive toward many electrophiles. Silylcupration of functionalized alkynes may lead to cyclic products by virtue of intramolecular alkylation. ... 

Selenoxide elimination. The yield of alkenes from alky) phenyl selenoxides and alkyl methyl selenoxides under usual conditions (30% H2O2, O3, Oa) tends to be rather low because of formation of the original selenide. Much higher yields are obtained if the selenides are oxidized with /-butyl hydroperoxide (4 equiv.) in the presence of basic alumina (8 equiv.) in THF at 55°. No epoxida-tion is observed under these conditions. A less satisfactory method is ozonization in CH2CI2 in the presence of 1-3 equiv. of triethylamine. ... 

Athene synthesh. The reaction of )3-hydroxy selenides with this reagent results in formation of alkenes. This reagent is superior to p-TsOH, HCIO4, or TFAA-triethylamine, which have been used previously. The complete synthesis of alkenes from two ketones is formulated in equation (I). ... 

The synthesis of a-substituted phosphonates 89, via the electrophilic addition of phosphorylated C-radicals 88 (generated by reaction of BujSnH to the readily accessible a-phosphoryl sulfides (or selenides)) and electrophilic addition to electron rich alkenes, has been described [57] (Scheme 26). A large excess of alkene is necessary to minimize the competitive formation of the undesired compound 90 resulting from direct reduction of the initial radical 88. The ratio 89/90 has been measured for each example. The synthesis of the a-mono- or a,a-di-substituted (R or phosphonates 89 shows that the free radical approach... 

Entry 5 is an example of the use of fra-(trimethylsilyl)silane as the chain carrier. Entries 6 to 11 show additions of radicals from organomercury reagents to substituted alkenes. In general, the stereochemistry of these reactions is determined by reactant conformation and steric approach control. In Entry 9, for example, addition is from the exo face of the norbornyl ring. Entry 12 is an example of addition of an acyl radical from a selenide. These reactions are subject to competition from decarbonylation, but the relatively slow decarbonylation of aroyl radicals (see Part A, Table 11.3) favors addition in this case. 

Chiral acetamido selenides 147, obtained from alkenes with camphorselenenyl sulfate, underwent intramolecular substitution in the presence of PhSeOTf or SO2CI2 to afford enantiomerically pure oxazolines 148 <00EJO3451>. 

Reactions of phosphines and phosphites have received some attention but their preparative value is limited. The zwitterion formed from diphenylmethylphosphine and benzyne rearranges to ylide (124) which can be captured by Wittig alkenation, with cyclohexanone, in about 20% yield.159 Some synthetically useful reactions of tellurium and selenium compounds with arynes have been reported. For example, heating diphenyl iodonium carboxylate and bis(p-ethoxyphenyl) ditelluride in dichlorobenzene affords the compound (125).160 The corresponding reactions with diphenyl selenide and diphenyl sulfide... 

Selenides are more readily cleaved by tin radicals than thioethers. Products bound to cross-linked polystyrene by a C-Se bond can be released from the support either by treatment with an oxidant to yield alkenes [1, 55-58], or by treatment with tin radicals to yield alkanes... 

The synthesis of enantiopure thiazolines has been reported. The mixture of enantiomerically pure diastereoisomeric amido selenides 64, obtained from the reaction of camphorselenyl sulfate with trans alkenes, when treated with Lawesson s reagent affords a mixture of two thioamide derivatives 65a and 65b. The two diastereoisomeric thioamide selenides were easily separated by chromatography, each was then treated with phenyl selenyl chloride which caused deselenylation to occur in a stereospecific manner furnishing the thiazolines 66a and 66b in an enantiopure form <02TA429>. 

Selenium-containing molecules have also been used as precursors for radical seleno group transfer reactions. This is a very powerful method for radical additions to alkenes and alkynes it is especially interesting from an atom economy point of view since all atoms remain in the product molecule. The free-radical addition of selenosulfonates 146 can be initiated either photochemically or thermally using AIBN. The addition of 146 not only to alkynes 147,255-257 km also to alkenes258-261 or allenes,261 has been reported and the products such as 148 are versatile building blocks for subsequent reactions (Scheme 39). For example, vinyl selenides 148 can be easily transformed into allenes. 

Vinyl selenides have been lithiated at the a-position by LDA983,984 at —78 °C in THF to give a-(arylselanyl)vinyllithiums 680, a-(methylselanyl)vinyllithiums 681 being obtained by selenium-lithium transmetallation from l,l-bis(methylselanyl)alkenes with n-BuLi in THF or t-BuLi in ether at —78 °C985 986. These intermediates reacted with alkyl halides, epoxides, carbonyl compounds and DMF985, the final deprotection being performed by mercury(II) salts986. 

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