Ferrocenyloxazolines, chiral ligands

Another significant development in oxazoline chemistry is the application of oxazoline-containing ligands for asymmetric catalysis, such as palladium-catalyzed allylic substimtions, Heck reactions, hydrogenations, dialkylzinc additions to aldehydes, and Michael reactions. The discovery of diastereoselective metalation of chiral ferrocenyloxazolines has further expanded the availability of chiral ligands for metal-catalytic reactions. 

In 2003, Bonini et al. reported a new synthesis of ferrocenyloxazolines based on an iodide-mediated ring expansion of A-ferrocenoyl-aziridine-2-carboxylic esters. The thus-formed ligands were successfully employed as palladium chelates for the test reaction, since they allowed the product to be formed in quantitative yields and good to high enantioselectivities (Scheme 1.69). According to the results, it seemed that the additional chiral centre present in the oxazoline backbone of these ligands did not play a major role for the asymmetric induction and the activity of the corresponding catalysts. 

A ferrocenyloxazoline with only one adjacent position available for deprotonation will lithiate at that position irrespective of stereochemistry. This means that the same oxazoline can be used to form ferrocenes with either sense of planar chirality. The synthesis of the diastereoisomeric ligands 311 and 313 illustrates the strategy (Scheme 143), which is now commonly used with other substrates to control planar chirality by lithiation (see below). Ferrocene 311 is available by lithiation of 305 directly, but diastereoselective silylation followed by a second lithiation (best carried out in situ in a single pot) gives the diastereoisomeric phosphine 313 after deprotection by protodesilylation ". ... 

Subsequent smdies revealed the scope and generality of this reaction that has been employed extensively for the synthesis of chiral ferrocenyloxazoline ligands." " Selected examples are listed in Table 8.26 (Scheme 8.142). " Sammakia and Latham optimized the reaction conditions... 

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