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((C6H11)3P)2Pt(C6H5)Cl is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

60750-86-9

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60750-86-9 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 60750-86-9 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 6,0,7,5 and 0 respectively; the second part has 2 digits, 8 and 6 respectively.
Calculate Digit Verification of CAS Registry Number 60750-86:
(7*6)+(6*0)+(5*7)+(4*5)+(3*0)+(2*8)+(1*6)=119
119 % 10 = 9
So 60750-86-9 is a valid CAS Registry Number.

60750-86-9Downstream Products

60750-86-9Relevant academic research and scientific papers

The F/Ph rearrangement reaction of [(Ph3P)3RhF], the fluoride congener of Wilkinson's catalyst

Macgregor, Stuart A.,Roe, D. Christopher,Marshall, William J.,Bloch, Karen M.,Bakhmutov, Vladimir I.,Grushin, Vladimir V.

, p. 15304 - 15321 (2007/10/03)

The fluoride congener of Wilkinson's catalyst, [(Ph3P) 3RhF] (1), has been synthesized and fully characterized. Unlike Wilkinson's catalyst, 1 easily activates the inert C-Cl bond of ArCl (Ar = Ph, ρ-tolyl) under mild conditions (3 h at 80 °C) to produce trans-[(Ph 3P)2Rh(Ph2PF)(Cl)] (2) and ArPh as a result of C-Cl, Rh-F, and P-C bond cleavage and C-C, Rh-Cl, and P-F bond formation. In benzene (2-3 h at 80 °C), 1 decomposes to a 1:1 mixture of trans-[(Ph 3P)2Rh(Ph2PF)(F)] (3) and the cyclometalated complex [(Ph3P)2Rh(Ph2PC6H 4)] (4). Both the chloroarene activation and the thermal decomposition reactions have been shown to occur via the facile and reversible F/Ph rearrangement reaction of 1 to cis-[(Ph3P)2Rh(Ph) (Ph2PF)] (5), which has been isolated and fully characterized. Kinetic studies of the F/Ph rearrangement, an intramolecular process not influenced by extra phosphine, have led to the determination of Ea = 22.7 ± 1.2 kcal mol-1, ΔH? 22.0 ± 1.2 kcal mol-1, and ΔS? = -10.0 ± 3.7 eu. Theoretical studies of F/Ph exchange with the [(PH3)2(PH 2Ph)RhF] model system pointed to two possible mechanisms: (i) Ph transfer to Rh followed by F transfer to P (formally oxidative addition followed by reductive elimination, pathway 1) and (ii) F transfer to produce a metallophosphorane with subsequent Ph transfer to Rh (pathway 2). Although pathway 1 cannot be ruled out completely, the metallophosphorane mechanism finds more support from both our own and previously reported observations. Possible involvement of metallophosphorane intermediates in various P-F, P-O, and P-C bond-forming reactions at a metal center is discussed.

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