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[RhCl(CH2C6H5)(OPh)(2,6-(CHN(t-Bu))2C5H3N)] is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

204636-53-3

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204636-53-3 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 204636-53-3 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 2,0,4,6,3 and 6 respectively; the second part has 2 digits, 5 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 204636-53:
(8*2)+(7*0)+(6*4)+(5*6)+(4*3)+(3*6)+(2*5)+(1*3)=113
113 % 10 = 3
So 204636-53-3 is a valid CAS Registry Number.

204636-53-3Relevant academic research and scientific papers

Rhodium aryloxide complexes containing terdentate nitrogen ligands, C-O bond formation, hydrogen bonding with phenol and oxidative addition reactions. Molecular structure of an Rh(III)-acetyl complex

Haarman, Hendrikus F.,Kaagman, Jan-Willem F.,Smeets, Wilberth J.J.,Spek, Anthony L.,Vrieze, Kees

, p. 34 - 45 (2008/10/08)

The new rhodium(I) phenoxide complexes [Rh(OPh)(2,6-(CH=NR2)2C5H3N)] (R2=i-Pr (3), t-Bu (4)) containing strongly electron-donating N-N′-N ligands, have been prepared by a metathesis reaction of [RhCl(2,6-(CH=NR2)2C5H3N)] (R2=i-Pr (1), t-Bu (2)) with NaOPh. These rhodium(I) phenoxide complexes 3 and 4, which are very sensitive to O2 but stable towards H2O, give with phenol the adducts [Rh(OPh) (2,6-(CH=NR2)2C5H3N)]·HOPh (R2=i-Pr (5), t-Bu (6)), which contain strong O-H?O hydrogen bonds. The hydrogen bonded phenol could not be extracted with diethyl ether, while no exchange of the hydrogen bonded phenol and the phenoxide ligand in 4 is observed on the NMR time scale. However, a small excess of phenol results in exchange of the hydrogen bonded phenol, the coordinated phenoxide ligand and free phenol on the NMR time scale. Reaction of 3 and 4 with p-nitrophenol afforded [Rh(OC6H4-(NO2-4))(2,6-(CH=NR2) 2C5H3N)]·HOPh (R2=i-Pr (7), t-Bu (8)) in which the formed phenol is hydrogen bonded to the Rh(I)-OC6H4-(NO2-4) moiety. The O-H?O bond is less strong than in 5 and 6, as the hydrogen bonded phenol could be removed by diethyl ether. Treatment of 3 with acetyl chloride and benzoyl chloride in benzene at room temperature gave phenylacetate and [RhCl2(C(O)CH3) (2,6-(C(H)=N-J-Pr)2C5H3N)] (15), and phenylbenzoate and [RhCl2(C(O)Ph)(2,6-(C(H)=N-i-Pr)2C5H 3N)] (19), respectively. Complex 15 and the analogous complex [RhCl2(C(O)CH3)(2,6-(C(H)=N-t-Bu)2C 5H3N)] (16) could also be prepared directly from acetyl chloride and 1 or 2, respectively. The single crystal X-ray determination of complex 16, monoclinic, space group P21/c, a=10.0477(5), b=11.7268(6), c=19.2336(9) A?, β=92.041(4)°, Z=4, R1=0.0281, shows that the acetyl group occupies an axial position, while the N-N′-N ligand is positioned equatorially. In solution this geometry remains unchanged as was shown by variable temperature 1H NMR measurements. When the oxidative addition of acetyl chloride to 3 was carried out at -78°C in toluene the intermediate complex [RhCl(OPh)(C(O)Me)(2,6-(C(H)=N-i-Pr)2C5H3N)] (11) could be isolated, which at room temperature reductively eliminates phenyl-acetate with formation of 1. Oxidative addition of acetyl chloride to 4 at room temperature gives [RhCl(OPh)(C(O)Me)(2,6-(C(H)=N-t-Bu)2C5H3N)] (12) which yields phenylacetate and 2 at 70°C in benzene by reductive elimination. Treatment of 3 with two equivalents of benzyl chloride afforded a mixture of [RhCl(OPh)(CH2Ph)(2,6-(C(H)=N-i-Pr)2C5H 3N)] (13) and [RhCl2(CH2Ph)(2,6-(C(H)=N-i-Pr)2C 5H3N)] (17) and some non-characterizable organic products, while 4 only yielded [RhCl(OPh)(CH2Ph)(2,6-(C(H)=N-t-Bu)2C5H 3N)] (14).

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