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fac-{palladium(IV)I(methyl)3(2,2'-bipyridine) is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

110182-93-9

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110182-93-9 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 110182-93-9 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 1,1,0,1,8 and 2 respectively; the second part has 2 digits, 9 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 110182-93:
(8*1)+(7*1)+(6*0)+(5*1)+(4*8)+(3*2)+(2*9)+(1*3)=79
79 % 10 = 9
So 110182-93-9 is a valid CAS Registry Number.

110182-93-9Upstream product

110182-93-9Relevant academic research and scientific papers

Phenylpalladium(IV) chemistry: Selectivity in reductive elimination from palladium(IV) complexes and alkyl halide transfer from palladium(IV) to palladium(II)

Markies, Bertus A.,Canty, Allan J.,Boersma, Jaap,Van Koten, Gerard

, p. 2053 - 2058 (1994)

Methyl iodide, benzyl bromide, and benzyl iodide react with PdMePh(bpy) (bpy = 2,2′-bipyridyl) in acetone at 0°C to form the isolable fac-triorganopalladium(IV) complexes PdIMe2Ph(bpy) (3) and PdXMePh(CH2Ph)(bpy) [X = Br (4), I (5)]. Complex 3 occurs as a mixture of isomers in a ca. 1:1 ratio, involving the phenyl group in a position trans either to bpy (3a) or to iodine (3b), while complexes 4 and 5 are obtained as one isomer which, most likely, has the benzyl group trans to the halogen. The selectivity of reductive elimination from a metal bonded to three different groups could be studied for the first time. The complexes undergo facile reductive elimination in (CD3)2CO at 0°C, in which PdIMe2Ph(bpy) gives a mixture of ethane and toluene in a 4:1 molar ratio together with PdlR(bpy) (R = Ph, Me), whereas PdXMePh(CH2Ph)(bpy) (X = Br, I) gives exclusively toluene and PdX(CH2Ph)(bpy). The analogous tmeda complex, PdMePh(tmeda) (tmeda = N,N,N′,N′-tetramethylethylenediamine), reacts more slowly than PdMePh(bpy) with alkyl halides. Methyl iodide reacts cleanly with PdMePh(tmeda) at 0°C in (CD3)2CO to form ethane and PdIPh(tmeda), but the expected palladium(IV) intermediate could not be detected. Benzyl bromide does not react with PdMePh(tmeda) below the decomposition temperature of the latter under these conditions (50°C, (CD3)2CO), while benzyl iodide reacts at 40°C to give a complicated mixture of products of which ethane, diphenylmethane, ethylbenzene, toluene, and PdIR(tmeda) (R = Me, Ph) could be identified. Benzyl iodide reacts with PdMe2(tmeda) at -30°C in (CD3)2CO to form PdIMe2(CH2Ph)(tmeda), for which 1H NMR spectra showed the benzyl group to be trans to one of the N-donor atoms. However, PdIMe2(CH2Ph)(tmeda) is unstable and undergoes facile reductive elimination to form ethane and PdI(CH2Ph)(tmeda). Transfer of alkyl and halide groups from palladium(IV) to palladium(II) complexes occurs in (CD3)2CO at low temperatures for several reaction systems in which the resulting palladium(IV) complex is known to be more stable than the palladium(IV) reagent. There is a strong preference for benzyl group transfer from PdXMePh(CH2Ph)(bpy) to PdMe2(L2) (X = Br, I; L2 = bpy, phen). The mechanism of the transfer reactions is discussed in terms of the mechanism suggested earlier for alkyl halide transfer from palladium(IV) to platinum(II), palladium(II) to palladium(0), cobalt(III) to cobalt(I), and rhodium(III) to rhodium(I). These reaction systems involve nucleophilic attack by the lower oxidation state reagent at an alkyl group attached to the higher oxidation state reagent.

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