Pauson-Khand reaction experimental

Verdaguer, X., Vazquez, J., Fuster, G., Bernardes-Genisson, V., Greene, A. E., Moyano, A., Pericas, M. A., Riera, A. Camphor-Derived, Chelating Auxiliaries for the Highly Diastereoselective Intermolecular Pauson-Khand Reaction Experimental and Computational Studies. J. 

Their retro synthetic study was based around the Pauson-Khand cyclization (6), which couples an alkene, an alkyne, and a carbon monoxide source (typically dicobalt octacarbonyl) to give a cyclopentenone ring (Fig. 3.5, top). This reaction has been widely used for synthetic purposes, and some excellent reviews (7,8) have covered its principal features and the recent improvements to its experimental conditions. This reaction, in its intramolecular version, is ideal for the assembly of the l//-[2]pyrindi-none scaffold in two distinct versions, differing in the stereochemistry of the ring junction (Fig. 3.5, bottom). Hence, the readily available unsaturated amino acid derivatives 3.1a,b undergo intramolecular Pauson-Khand reaction to produce the two unsamrated scaffolds 3.2a,b. 

Dihydrofiirans have seen considerable use as substrates in the Pauson-Khand reaction. The parent compound reacts in excellent yield with acetylene, terminal and internal alkynes. Yields in this system respond very well to the use of catalytic reaction conditions (equation 4). Another unusual experimental modification has also been found by Pauson to be useful in this system addition of tri-n-butylphosphine oxide nearly doubles the product yield in certain cases (equation 37). The role of the added substance is unclear. Addition of phosphine oxide does not always improve reaction efficiency at this time there are no guidelines to indicate when its use might be beneficial. Substituted dihydrofurans give somewhat lower but still acceptable yields the poor regioselectivity in unsymmetrical cases is the more significant difficulty with these substrates (equation 38). 

Abstract Recent density functional theory computations of cobalt-catalyzed hydroformylation of propene, A -vinyl acetamide, 1,3-butadiene, acetylene, propyne, and allene and the urea formation from methyl amine as well as Pauson-Khand reaction have been reviewed. The detailed catalytic mechanism and regioselectivity have been discussed and compared with the available experimental data. It shows that modem computational chemistry provides not only qualitative but also quantitative aspects of catalytic reactions. 

It is also worthy of note that the construction of tetracyclic compounds 44 by cobalt-catalyzed tandem Pauson-Khand/[2 + 2 + 2] cycloaddition reactions of 1,6-diynes 43 was also reported by Chung et al. [45,46]. It was experimentally shown that the [2 + 2 + 2] cycloaddition reaction occurs after the [2 + 2 + 1] cycloaddition between CO and the substrate (Scheme 22). 

Experimental procedure for the Pauson-Khand-type reaction with cinnamaldehyde under solvent-free conditions ° ... 

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