2014
DOI: 10.1002/anie.201409294
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A Heterobimetallic Superoxide Complex formed through O2 Activation between Chromium(II) and a Lithium Cation

Abstract: The reaction of 1,1,3,3-tetraphenyl-1,3-disiloxandiol (LH2) with n-butyllithium and CrCl2 results in a mononuclear chromium(II) complex (1) that further reacts with O2 at low temperatures to yield a mononuclear chromium(III) superoxide complex [L2CrO2(THF)][Li2(THF)3] (2). The crystal structure revealed that the chromium superoxido entity is stabilized by the coordination to an adjacent lithium cation. Complex 2 thus contains an unprecedented heterobimetallic [Cr(III)(μ-O2)Li(+)] core; beyond this it is the fi… Show more

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Cited by 34 publications
(39 citation statements)
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“…For 1,H R-ESI-MS, crystal structure, IR, UV/Vis data (THF) and elemental analysis are in accordance with ref. [9].F or 3,c rystal structure and UV/Vis data are in accordance with ref. [11]…”
Section: Generalprocedures For Preparation Of 1 3andsupporting
confidence: 81%
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“…For 1,H R-ESI-MS, crystal structure, IR, UV/Vis data (THF) and elemental analysis are in accordance with ref. [9].F or 3,c rystal structure and UV/Vis data are in accordance with ref. [11]…”
Section: Generalprocedures For Preparation Of 1 3andsupporting
confidence: 81%
“…In 2 , one Li + ion is displaced out of the CrO 4 plane, so that an electrostatic interaction between the distal O atom of the superoxide ligand and the Lewis acidic Li + occurs (Scheme ). Evidently, the interaction leads to a stabilization of the chromium(III) superoxide unit and has therefore allowed us to stop the reaction of 1 with O 2 directly after the primary O 2 activation step . Although complex 2 is intrinsically quite unstable in THF, it only reacts slowly with organic substrates such as 2,6‐di‐ tert ‐butyl‐4‐methoxyphenol.…”
Section: Introductionmentioning
confidence: 99%
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“…Cage metallasilsesquioxanes were found to be active in alkene polymerization, epoxidation or epoxide ring opening, metathesis, hydroformylation, Ullmann–Goldberg condensation and amidation . Recently, significant attention was drawn to the potential of CLMS application in the homogeneous oxidation of C–H compounds with activity confirmed for Fe‐,, Cr‐, Ni‐, and Co‐based compounds. In turn, the best potential for this type of catalytic activity was found for Cu II ‐based cage silsesquioxanes.…”
Section: Introductionmentioning
confidence: 99%