Stannanes synthesis

Synthesis of aryl ketones or aldehydes from aryl tnllates or iodides and organo stannanes in ihe presence of CO and a palladum catalyst... 

Legros et al. (2001T2507) carried out the synthesis of acetylquinolines (e.g. 130) via Heck reaction of 3-bromoquinoline (70) and -butyl vinyl ether (Scheme 16) employing either Pd(dba)2 or Pd(OAc)a as the catalyst. In each case it was found that the Heck reaction for this synthesis gave better overall yields than using the Stille reaction (see Section IV.C). Another advantageous point in favor of the Heck is that it avoids the use of toxic stannane. 

Two approaches for the synthesis of allyl(alkyl)- and allyl(aryl)tin halides are thermolysis of halo(alkyl)tin ethers derived from tertiary homoallylic alcohols, and transmetalation of other allylstannanes. For example, dibutyl(-2-propenyl)tin chloride has been prepared by healing dibutyl(di-2-propenyl)stannane with dibutyltin dichloride42, and by thermolysis of mixtures of 2,3-dimethyl-5-hexen-3-ol or 2-methyl-4-penten-2-ol and tetrabutyl-l,3-dichlorodistannox-ane39. Alternatively dibutyltin dichloride and (dibutyl)(dimethoxy)tin were mixed to provide (dibutyl)(methoxy)tin chloride which was heated with 2,2,3-trimethyl-5-hexen-3-ol40. 

The stereoselectivity of Lewis acid promoted reactions between 2-butenylstannanes and aldehydes has been widely studied, and several very useful procedures for stereoselective synthesis have been developed. In particular syn-products are formed stereoselectively in reactions between trialkyl- and triaryl(2-butenyl)stannanes, and aldehydes induced by boron trifluoride-diethyl ether complex, irrespective of the stannane geometry66. 

In their search for new hgands with a very high binding affinity for the nicotinic acetylchohne receptor (nAChR), potentially useful in positron emission tomography (PET) when radiolabeled with [ F], Horti et al. described the synthesis of BOC-protected 5-(azetidin-2-ylmethoxy)-2-chloro-6 -fluoro-3,3 -bipyridine via a sequential classical heating and microwave irradiation of (2-fluoro-5-pyridinyl)(trimethyl)stannane with f-butyl 2- [(6-chloro-5-... 

The Stille reaction has been successfully applied to a number of macrocyclic ring closures.207 In a synthesis of amphidinolide A, the two major fragments were coupled via a selective Stille reaction, presumably governed by steric factors. After deprotection the ring was closed by coupling the second vinyl stannane group with an allylic acetate.208... 

Scheme 8.13. Synthesis of Ketones from Acyl Chlorides and Stannanes...

Another major route for synthesis of stannanes is reaction of an organometallic reagent with a trisubstituted halostannane, which is the normal route for the preparation of aryl stannanes. 

There are several procedures for synthesis of terminal alkenyl stannanes that involve addition to aldehydes. A well-established three-step sequence culminates in a radical addition to a terminal alkyne.150... 

There are, however, serious problems that must be overcome in the application of this reaction to synthesis. The product is a new carbocation that can react further. Repetitive addition to alkene molecules leads to polymerization. Indeed, this is the mechanism of acid-catalyzed polymerization of alkenes. There is also the possibility of rearrangement. A key requirement for adapting the reaction of carbocations with alkenes to the synthesis of small molecules is control of the reactivity of the newly formed carbocation intermediate. Synthetically useful carbocation-alkene reactions require a suitable termination step. We have already encountered one successful strategy in the reaction of alkenyl and allylic silanes and stannanes with electrophilic carbon (see Chapter 9). In those reactions, the silyl or stannyl substituent is eliminated and a stable alkene is formed. The increased reactivity of the silyl- and stannyl-substituted alkenes is also favorable to the synthetic utility of carbocation-alkene reactions because the reactants are more nucleophilic than the product alkenes. 

Radical reactions used in synthesis include additions to double bonds, ring closure, and atom transfer reactions. Several sequences of tandem reactions have been developed that can close a series of rings, followed by introduction of a substituent. Allylic stannanes are prominent in reactions of this type. 

The synthesis of organotin derivatives of itaconic and dtraconic acid by the known reaction of trialkyl(triaryl)stannanes with the corresponding unsaturated acids has been reported 66). These acids are presumed to be of interest for the production of highly bactericidal film-forming polymers. 

Indeed, a Stille reaction of the TES-protected ( )-bromoxone (6/1-175) with the stannane 6/1-173 led to 6/1-176 upon standing overnight, via the diene 6/1-172 (Scheme 6/1.46). This synthesis is a classic example of a transition metal-catalyzed formation of a 1,3-diene, followed by a cycloaddition. 

The following two schemes exemplify the synthesis of piperidines via 1,4-addition of amines. In the first scheme below, a one-pot Stille coupling/double Michael addition, starting from readily available vinyl stannanes, is used to generate piperidinones 174 <06SL547>. An example of the reduction of piperidinone 174 to piperidine 175 is also highlighted. 

The successful preparation of nonracemic tetraorganogermanes stimulated investigations on the synthesis of related stannanes. By the late 1960s, it was apparent from XH NMR studies that chiral stannanes should be capable of existence and that their stability... 

The second synthesis involved preparation of the (—)-menthyloxystannane 33 and subsequent displacement of the menthyloxy grouping with benzylmagnesium chloride to afford stannane 34, a i) 4.6, of unknown configuration and enantiomeric purity (equation 6)18. 

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