1075256-79-9Relevant academic research and scientific papers
Hydrogen- and oxygen-driven interconversion between imido-bridged dirhodium(III) and amido-bridged dirhodium(II) complexes
Ishiwata, Koji,Kuwata, Shigeki,Ikariya, Takao
, p. 5001 - 5009 (2009/09/30)
The reaction of [Cp*RhCI2]2 (Cp* = η5-C5(CH3)5) with 2 equiv of p-toluenesulfonamide in the presence of KOH resulted in the formation of the sulfonylimido-bridged dirhodium(lll) complex [(Cp*Rh)2(i i-NTs)2] (1a; Ts = SO2C6H 4CH3-p). The imido complex 1a reacted with hydrogen donors such as H2 and 2-propanol to give the sulfonylamido-bridged dirhodium(ll) complex [(Cp*Rh)2(μ-NHTs)2] (2). Treatment of the (amido)rhodium(ll) complex 2 with O2 regenerated the (imido)rhodium(lll) complex1a. Complex 1a also underwent reversible protonation to afford the cati onic amido- and imido-bridged dirhodium(lll) complex [(Cp*Rh)2(μ-NHTs)(μ-NTs)]+ (4), which further reacted with H2 or 2-propanol to give the (hydrido)bis(ami-do) dirhodium(lll) complex [(Cp*Rh)2(μ-H)(μ-NHTs) 2]+ (5). On the basis of DFT calculations and experimental results using 4and 5, the reaction of 1a with H2 proved to proceed via hete rolytic cleavage of H2 assisted by the sulfonyl oxygen atom followed by proton migration from the metal center. Furthermore, the redox interconversion between 1a and 2 was applied to catalytic aerobic oxidation of H2 and an alcohol by using 1a as a well-defined dinuclear catalyst. The iridium complex [(Cp*lr)2(μ-NTs)2] (1b) as well as a rhodium complex [Cp*RhCI2]2 without bridging imido ligands did not catalyze these aerobic oxidation reactions.
Formation of a bridging-imido d6 rhodium compound by nitrene capture. Insertion and cycloaddition reactions
Tejel, Cristina,Ciriano, Miguel A.,Jimenez, Sonia,Passarelli, Vincenzo,Lopez, Jose A.
, p. 10220 - 10222 (2009/04/13)
The first d6 rhodium imido complex, [{(C5Me 5)Rh(μ-NSO2C6H4Me-p)} 2] (2), has been obtained from the reaction of [(C5Me 5)Rh(C2H4)2] with chloramine-T. Carbon monoxide inserts into the N-Rh bonds in 2 to give the dinuclear ureylene complex [(C5Me5)Rh(μ-{(Ts)N-CO-N(Ts)}Rh(CO)(C 5Me5)], while the azide C6F5N 3 adds to 2 to give the mononuclear tetrazene complex [(C 5Me5)Rh{(p-MeC6H4SO 2)N4(C6F5)}].
