Aldehydes and Allenes

Zweifel and Hahn found that deprotonation of terminal allenes with -BuLi and subsequent addition of ZnCb leads to terminal allenylzinc reagents, which afford anti adducts upon addition to various aldehydes (Table 5)7. Branching in the aldehyde and allene substituents enhanced the anti syn ratio of adducts, in keeping with the previously proposed cyclic transition state for such additions. 

Alkylations. Molecules with acti ( compounds that are activated by Pd caial lated by aldehydes and allenes. By a th ester, an allene, and a vinylic bromide, the tutes a convenient preparation of a 2.4. Some aryl(hydro)silanes also undergo aryl... 

Scheme 3.29 Asymmetric reductive coupling of aldehyde and allene.

DFT has been used to investigate the highly regioselective 1 2 coupling of aldehydes and allenes catalysed by rhodium(I) complexesThe initial steps appear to be oxidative coupling of the allenes, followed by allylation of the aldehyde. 

Howell, A. R., Fan, R., and Truong, A., Preparation of 2-alkylidene oxetanes an investigation of the Paternb-Biichi reaction between aliphatic aldehydes and allenes. Tetrahedron Lett., 37, 8651, 1996. 

Trimethylsilylation with trimethylchlorosilane affords the corresponding allene derivative, hydroxyalkylation with aldehydes and ketones gives mixtures of comparable amounts of acetylenic and allenic carbinols. 

Note 2. A similar experiment v/ith C H9-CH=C=CH2 gave only traces of the allenic aldehyde and much resinous residue. 

Aldehydes and ketones can be converted into terminal allenes by reaction with a-lithiovinylsilanes followed by elimination (9). 

AUylzirconium complexes are conveniently obtained by the regio- and stereoselective hydrozirconation of allene [127-133] and can be, for example, used subsequently for the MAO-catalyzed allylzirconation of alkynes to prepare enyne derivatives [132]. Alternatively, the preparation of (E)-l,3-dienes from aldehydes and the appropriate allylstannane zirconocene derivative (R = SnBu,) is accomplished (Scheme 8-17) [131], Note that addition of [Cp2Zr(H)Cl[n (1) on the aUenyl reagent with the... 

Oda et al. reported that under reflux conditions, the zinc-promoted reaction of 2,3-dichloro-l-propene with aldehydes and ketones in a two-phase system of water and toluene containing a small amount of acetic acid gave 2-chloroallylation products (Eq. 8.31).64 No conversion occurred when tin was used as the promoter. The absence of water completely shuts down the reaction. Interestingly, the action of 2,3-dichloropropene plus zinc powder in aqueous ethanol gives the dechlorination product, allene.65... 

The mechanism of [3 + 2] reductive cycloadditions clearly is more complex than other aldehyde/alkyne couplings since additional bonds are formed in the process. The catalytic reductive [3 + 2] cycloaddition process likely proceeds via the intermediacy of metallacycle 29, followed by enolate protonation to afford vinyl nickel species 30, alkenyl addition to the aldehyde to afford nickel alkoxide 31, and reduction of the Ni(II) alkoxide 31 back to the catalytically active Ni(0) species by Et3B (Scheme 23). In an intramolecular case, metallacycle 29 was isolated, fully characterized, and illustrated to undergo [3 + 2] reductive cycloaddition upon exposure to methanol [45]. Related pathways have recently been described involving cobalt-catalyzed reductive cyclo additions of enones and allenes [46], suggesting that this novel mechanism may be general for a variety of metals and substrate combinations. 

Aldehydes and ketones also add to allenes to form oxetanes.ai0,111) Further reaction of the oxetanes produced with excited carbonyls results in dioxaspiro[3.3]heptane derivatives(111) ... 

Lauryl alcohol has been prepared by the reduction of the aldehyde with zinc dust and acetic acid 1 by the reduction of esters of lauric acid with sodium and absolute alcohol 2 or with sodium, liquid ammonia, and absolute alcohol 3 by the reduction of lauramide with sodium and amyl alcohol.4 The method in the above procedure is essentially that described by Levene and Allen.5... 

Thus far, the [5 + 2 + 1]-reaction works efficiently with alkynyl esters, amides, aldehydes, and ketones or an alkynyl-substituted allene44 as the two-carbon component (Scheme 58). Just as in the case of the [5 + 21-cycloaddition of VCPs and allenynes, the [5 + 2 + l]-reaction is selective for the allene over the alkyne subunit (Equation (35)). 

The second large class of allenes with carbonyl groups as substituents is derivatives of carboxylic acids. Overall, the same principles as with the aldehydes and ketones apply, but not as many examples are known, which might originate in part from the lower acidity of the a-hydrogen atoms of the carbonyl group compared with aldehydes and ketones. 

Besides protonation, a variety of other electrophiles have been employed for the trapping of allenyllithium intermediates 105, e.g. aldehydes and ketones, oxiranes and carbon dioxide [69]. Scheme 2.38 shows a selection of functionalized allenes obtained by this method. 

The alternative building scheme C2 + Q was used by Petasis and Hu [89], who reacted various aldehydes and ketones with alkenyltitanocene derivatives 172 to obtain the corresponding allenes 173 in high chemical yields (Scheme 2.54). The reaction probably proceeds via titanocene vinylidene complexes, which can also be trapped with alkynes and isocyanides to afford allenylketene imines [90],... 

Several trivial but highly useful reactions are known to convert one acceptor-substituted allene into another. For example, the transformation of allenic carboxylic acids is possible both via the corresponding 2,3-allenoyl chlorides or directly to 2,3-allen-amides [182,185], Allenylimines were prepared by condensation of allenyl aldehydes with primary amines [199]. However, the analogous reaction of allenyl ketones fails because in this case the nucleophilic addition to the central carbon atom of the allenic unit predominates (cf. Section 7.3.1). Allenyl sulfoxides can be oxidized by m-CPBA to give nearly quantitatively the corresponding allenyl sulfones [200]. The reaction of the ketone 144 with bromine yields first a 2 1 mixture of the addition product 145 and the allene 146, respectively (Scheme 7.24). By use of triethylamine, the unitary product 146 is obtained [59]. The allenylphosphane oxides and allene-... 

Although both boronates and alanates react with allylic bromides, aldehydes and C02 to afford allenic products in satisfactory yield, the alanates are more efficient in additions to ketones (Table 9.14). Boronate reagents do not require a B-C alkyl migration for their preparation. Thus the starting acetylene possesses the structural elements of the product. Additionally, the issue of dummy ligands is irrelevant. 

Addition of propargylic and allenic titanium reagents to aldehydes. 

An alternative, but related, route to allenic titanium reagents from propargylic esters has been reported recently. Reaction of titanocene dichloride with BuMgCl and Mg yields a reactive titanocene intermediate, formulated as Cp2Ti. This reduced Ti species reacts in situ by oxidative addition to propargylic acetates. The allenyltitanium reagents thus produced add to aldehydes and ketones, as expected, to afford homopropargylic alcohols (Table 9.27) [43]. 

A related method of preparation involves the oxidative addition of a tin(II) salt to propargylic iodides, which yield mixtures of allenyl- and propargyltin halides on treatment with SnCl2 in DMF-DMI (l,3-dimethylimidazol-2-one) (Eq. 9.75) [68], These intermediates react in situ with aldehydes to afford mixtures of propargylic and allenic carbinols via a cyclic SE2 process (Eqs. 9.76 and 9.77). As explained in the Introduction, the ratio of these two products reflects the relative transition-state energies of the addition reactions. 

In a process analogous to that described for allenyltitanium compounds, Cp2Zr reacts with propargylic ethers to afford allenylzirconium reagents [126], In situ additions to aldehydes yield mixtures of propargylic and allenic adducts A and B with the former predominant (Table 9.64). The anti adduct A is the major propargylic product of these additions. 

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