Propargylic metal derivatives

Alkylation ofa-thio- and a-seleno-alkyllithiums Alkylation ofa-thio- and a-seleno-benzylmetals Alkylation ofa-thio- and a-seleno-allylmetals Alkylation ofa-thio- and a-seleno-propargylic metal derivatives Alkylation of a-metallovinyl sulfides and selenides... 

An important variant for transition metal-catalyzed carbon-nitrogen bond formation is allylic substitution (for reviews, see1,la lh). Nucleophilic attack by an amine on an 7r-allyl intermediate, generated from either an allylic alcohol derivative,2 16,16a 16f an alkenyloxirane,17-19,19a-19d an alkenylaziridine19,19a 19d, or a propargyl alcohol derivative,21,21a 21d gives an allylic amine derivative. 

A new preparative method for allylic indium(m) reagents via a reductive transmetallation of 7r-allylpalladium(n) or 7T-allylnickel(n) complexes with indium(i) salts is reported. This method enables the use of a wide variety of allylic compounds, such as allylic chlorides, acetates, and even allylic alcohols, in combination with Pd or Ni catalysts.43-50 7r-Allylpalladium(ii) resulting from the addition of arylpalladium(n) to allene is also transformed by metallic indium to the corresponding allylindium.51-54 Similarly, propargylindium(m) can be prepared from the corresponding propargyl alcohol derivatives.55-58... 

Variation of the Procatalyst (Metal Component) and the Acetylenic Substrate. The in situ catalysts Co(acac)3-Et2AlCl-phosphine have proven to be well-suited for the synthesis of 4-aryl- and 4-alkyl-substituted deltacyclenes. The catalysts tolerate remote oxygen functionalities in the acetylenic substrate. However, they could not be used with functionalized acetylenes such as propargylic acid derivatives. 

Several equilibria are involved in this reaction, as shown by B NMR. The metalation-hydroboration of acetylides leads to 1,3-diols. A possible sequence of transformations for the reaction of H3B-THF with propargylic lithium derivative is . 

Normant has reviewed the carbometallation of alkynes to give stereospecific syntheses of alkenyl-metal derivatives, and their addition to aldehydes and ketones to afford allylic alcohols. Specific titanium-catalysed 5yn-hydromag-nesiation of 2-propynylic alcohols (Scheme 16), and the related zirconium-catalysed 5yn-carboalumination of propargylic alcohol itself (also Scheme 16) or its t-butyldimethylsilyl ether (c/. 3, 139 4,160) can both lead to allylic alcohols. 

Other Unsaturated Alcohols. The review mentioned above of carbometallation of alkynes, includes a survey of additions of alkenyl-metal derivatives to epoxides to give homoallylic alcohols. The zirconium-catalysed carboalumination of propargylic systems (Scheme 16) is also applicable to the homopropargylic to homoallylic alcohol transformation. ... 

Reaction with Allylic Halides, Alcohols, and their Derivatives. Allylation of allyl and propargyl trimethylsilyl ethers as well as benzyl and propargylic alcohol derivatives proceeds in the presence of a catalytic amount of Lewis acids, such as ZnC, TMS(OTf), and B(C6F5)3. Direct substitutions of the hydroxyl group of allylic, ben-zylic, and propargylic alcohols are catalyzed by HN(S02F)2, a rhenium-oxo complex, and InCls (eq 27). A combination of chlorodimethylsilane and allyltrimethylsilane effectively promotes the deoxygenative allylation of aromatic ketones in the presence of a catalytic amount of an indium compound, such as indium trihalide or metallic indium (eq 28). Allylation of cyclic allylic acetates with allyltrimethylsilane can be catalyzed by molecular iodine. ... 

Allenylidenes ligands are divalent radicals derived from allenes and their metal derivatives can be easily obtained from terminal propargylic alcohols by dehydration of initially formed M-hydroxyvinylidenes [174]. Since the first report of the use of transition metal allenylidene complexes in catalytic reactions by Trost [94], significant progress in this field has been made [59, 64, 65, 175]. The reactivities of metal allenylidene complexes are rationalized by considering the electrophilicity of Ca and Cy and the nucleophilicity of Cp of the M=C=C=CR2 moiety. 

The alkynylation of estrone methyl ether with the lithium, sodium and potassium derivatives of propargyl alcohol, 3-butyn-l-ol, and propargyl aldehyde diethyl acetal in pyridine and dioxane has been studied by Miller. Every combination of alkali metal and alkyne tried, but one, gives the 17a-alkylated products (65a), (65c) and (65d). The exception is alkynylation with the potassium derivative of propargyl aldehyde diethyl acetal in pyridine at room temperature, which produces a mixture of epimeric 17-(3, 3 -diethoxy-T-propynyl) derivatives. The rate of alkynylation of estrone methyl ether depends on the structure of the alkyne and proceeds in the order propar-gylaldehyde diethyl acetal > 3-butyn-l-ol > propargyl alcohol. The reactivity of the alkali metal salts is in the order potassium > sodium > lithium. 

In synthetic applications, Li et al. examined the propargylation-allenylation of carbonyl compounds by using a variety of metals including Sn, Zn, Bi, Cd, and In.203 By using the indium-mediated allenylation reaction, Li and co-workers developed the synthesis of the antiviral, antitumor compound (+)-goniofufurone (Scheme 8.22),204 a key component isolated from the Asian trees of the genus Goniothalamus,205 and other styryl lactone derivatives (Eq. 8.80). 

Allenyl cations have been generated by solvolysis of allenic derivatives, by photolysis of allenyl halides and by reaction of metal salts with allenyl and propargyl halides. This review will delineate these reactions. The related butatrienyl cations are not many and they will be only briefly described. 

The high-valent metal species required for activation of an alkyne has also been generated by the oxidative addition to an allylic or propargylic system. For example, with an allyl aryl ether as the substrate, this type of reaction achieves a cycloisomerization that occurs through an 0- to C-allyl migration (Equation (92)) 323,324 similarly, (9-propargyl derivatives lead to a mixture of allenyl and propargyl products (Equation (93)).325,326... 

As far as propargyl thioethers are concerned, the substrates in this section follow all the principles discussed for propargyl ethers and propargylamines in the two preceding sections. For alkyl propargyl thioethers typical bases used are sodium amide in liquid ammonia, alcoholate or alkali metal hydroxide [178, 186-189, 191, 287-291], and again some derivatives of carbohydrates have been used successfully [292, 293], If an ester group is also present in the molecule, the reaction can be accompanied by a hydrolysis to the carboxylate [294]. 

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