Secondary phosphine boranes arylation

As mentioned in Sect. 3.1.1, secondary phosphine-boranes also react efficiently with aryl iodides in palladium-catalyzed substitution reactions (Pd(PPh3)4) [73]. In all cases the boranato functional group remains unchanged. 

Pd-catalyzed cross-coupling of secondary phosphine-boranes and aryl iodides has been carried out in ionic liquids using a ligand immobilized with a pyridinium substituent (Fig. 3). Catalyst recycling at least six times without significant loss of activity was possible [93]. 

Pican S, Gaumont A-C (2005) Palladium catalysed enantioselective phosphination reactions using secondary phosphine-boranes and aryl iodide. J Chem Soc Chem Commun 2393-2395... 

The optically pure secondary phosphine boranes are easily deprotonated, giving extremely nucleophilic phosphide borane anions, which preserve the absolute configuration at the P atom at low temperatures. This fact prompted Danjo, Imamoto and co-workers to couple the phosphide boranes derived from 9 with aryl cation equivalents. In particular, they found that fluoroarene tricarbonylchromium complexes such as 17 were excellent substrates for the SNAr process due to the high electron deficiency of the arene ring and significant electrophilicity of the ipso carbon (Scheme 5.9). 

More recently, Livinghouse and co-workers studied the effect of Cu(I) on Pd-catalysed arylation of secondary phosphine boranes. Apart from a marked beneficial effect on the coupling elSciency, they discovered that Cu(I) is able to suppress the base-mediated racemisation of the phosphide borane intermediate, to generate a configurationally stable metallophosphide 47 (Scheme 6.22). Consequently, tertiary phosphine boranes 48 were obtained with retention of configuration, in good yields and excellent enantioselectivities. 

The asymmetric arylation or alkylation of racemic secondary phosphines catalyzed by chiral Lewis acids in many cases led to the formation of enantiomerically enriched tertiary phosphines [120-129]. Chiral complexes of ruthenium, platinum, and palladium were used. For example, chiral complex Pt(Me-Duphos)(Ph)Br catalyzed asymmetric alkylation of secondary phosphines by various RCH2X (X=C1, Br, I) compounds with formation of tertiary phosphines (or their boranes) 200 in good yields and with 50-93% ee [121]. The enantioselective alkylation of secondary phosphines 201 with benzyl halogenides catalyzed by complexes [RuH (/-Pr-PHOX 203)2] led to the formation of tertiary phosphines 202 with 57-95% ee [123, 125]. Catalyst [(R)-Difluorophos 204)(dmpe]Ru(H)][BPh4] was effective at asymmetric alkylation of secmidaiy phosphines with benzyl bromides, whereas (R)-MeOBiPHEP 205/dmpe was more effective in the case of benzyl chlorides (Schemes 65, 66, and 67) [125—127]. 

The arylation of secondary phosphines 201 with ortho-aiy iodides, catalyzed by generated in situ complex Pda (dba>3 x CHQ3, containing chiral ligand Et,Et-FerroTANE 207 and LiBr, led to the formatiOTi of corresponding tertiary phosphines with enantioselectivity of 90% cc [ 132,137]. The palladium complex 209 also showed high enantioselectivity in arylation of secondary phosphines [131,132]. Some examples of arylation reaction of secondary phosphines with low ee were described. The asymmetric arylation of phosphine boranes with anisyl iodide, catalyzed by chiral complex of oxazoline phosphine 208, led to the formation of enantiomerically enriched tertiary phosphines 206 with 45% ee [134]. The Pd complex 210 of (R )-t-Bu-JOSlPHOS ligand catalyzed arylation of PH(Me)(Ph)(BH3) by o-anisyl iodide with the formation of PAMP-BH3 with 10% ee (Table 3) [112]. 

Examples of electrophilic addition of secondary phosphines to alkenes or alkynes were described. [114, 124, 125, 135]. Glueck [124-126] reported enantioselective tandem reaction of alkylated/arylation of primary phosphines catalyzed by platinum complex, proceeding with formation of chiral phosphaace-naphthenes. Palladium-catalyzed hydrophosphination of alkynes 219 tmder kinetic resolution conditions gave access to 1,1-disubstituted vinylphosphine boranes 220. However, despite screening several chiral ligands, temperatures, and solvents, the... 

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