80298-95-9

Upstream product

• 12080-32-9 dichloro(1,5-cyclooctadiene)platinum(ll) 
• 86934-62-5 (2-diphenylphosphinoethyl)diphenylsilane 
• 14221-02-4 tetrakis(triphenylphosphine)platinum 

Downstream Products

• 80298-94-8 {Pt(P(C₆H₅)2CH₂CH₂Si(CH₃)2)2} 
• 134681-60-0 {Pt(P(C₆H₅)2CH₂CH₂Si(C₆H₅)2)(Cl)(P(C₆H₅)2CH₂CH₂Si(C₆H₅)2Cl)} 
• 134681-62-2 {Pt((P(C₆H₅)2CH₂CH₂Si(C₆H₅)2)(Cl))2(Cl)(H)} 

Relevant academic research and scientific papers

The Phosphinoethylsilyl Group as a Bifunctional Chelate. Asymmetric Induction at Platinum(II)

The synthesis of cis-1R2)2> is reported, and its geometry, inferred from 31P n.m.r. data, is confirmed by X-ray crystallography for R1 = R2 = Me; when R1 R2 racemic and meso-diastereomers are formed in varying ratio consistent with asymmetric induction during stepwise chelation to give the rac-complex as the preferred isomer, and this is proven where R1 = Me, R2 = Ph by diastereomer separation followed by Pt-Si bond-cleavage with (+)-EtCH(Me)CH2I.

(Phosphinoalkyl)silyl complexes. 10. Formation of chelated bis[(diphenylphosphinoethyl)diorganosilyl]platinum(II) complexes. Precoordination through phosphorus, intermediacy of a platinum(IV) disilyl, and diastereoisomerism at planar platinum(II) in chelate-assisted hydrosilylation

Addition of the silane PPh2CH2CH2SiMe2H (chelH, 1a) to Pt(COD)2 (COD = cycloocta-1,5-diene) affords in high yield the cis-bis chelate Pt(chel)2 (2); formation of the same product from Pt(COD)(X)Y (X = Y = Me; X = Me, Y = Cl) has been shown by NMR spectroscopy (1H, 31P, 195Pt) to proceed via prior coordination of chelH through P to afford Pt(chelH)2(X)(Y) (cis and trans isomers) and through intermediacy of PtH(chel)2Cl (22) in which P trans to Si at Pt(IV) leads to an exceptionally low 2J(Pt-P) = 1084 Hz. Cleavage of Pt-Si bonds in 2 by HCl can be controlled to give the monochelate species Pt(chel)(chelH)Cl (7), from which chelH is displaced by PMe2Ph, or trans-PtH(PPh2CH2CH2SiMe2Cl) 2Cl (9). Products related to 9 result from Pt-Si bond cleavage by I2 or MeI. Using the analogue PPh2CH2CH2SiMe(Ph)H (1c) of 1a, the analogue Pt-[PPh2CH2CH2SiMe(Ph)]2 (4) of 2 is obtained as a mixture of meso and racemic diastereomers in which the latter predominates, as is established by its separation and then reaction with optically pure (+)-2-methylbutyl iodide to give two diastereomeric products of Pt-Si bond cleavage as well as by single-crystal X-ray diffraction.