![]() ![]() The formation of 4– from 4– shows for the first time a solution-phase CO homologation process that brings about chain branching via complete C–O bond cleavage, while a comparison of the linear 4– system with the 6– congener formed under more reducing conditions models the net conversion of C–O bonds to C–C bonds in the presence of additional reductants. ![]() 1351, CPA, 12266, ACTIVE, JAMIE, CASH, 32 HERITAGE WAY, OXFORD. ![]() We show that the mechanism for homologation relies on the highly electron-rich nature of the aluminyl reagent and on an unusual mode of interaction of the CO molecule, which behaves primarily as a Z-type ligand in initial adduct formation. The Five Chapters by Jamie Andreas - Free download as PDF File (.pdf), Text File (.txt) or read online for free. 790, CPA, 8336, ACTIVE, JAMIE, M, BOWLING. Here, we show that four- or six-electron reduction of CO can be accomplished by the use of anionic aluminum(I) (“aluminyl”) compounds to give both topologically linear and branched C 4/C 6 chains. C–C bond formation has been modeled by homogeneous systems, with 2– fragments ( n = 2–6) formed by two-electron reduction being commonly encountered. Homologation of carbon monoxide is central to the heterogeneous Fischer–Tropsch process for the production of hydrocarbon fuels.
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