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dc.contributor.authorSuresh, C H-
dc.contributor.authorKoga, N-
dc.date.accessioned2016-01-18T08:19:39Z-
dc.date.available2016-01-18T08:19:39Z-
dc.date.issued2006-
dc.identifier.citationOrganometallics 25(8):1924-1931;10 Apr 2006en_US
dc.identifier.issn0276-7333-
dc.identifier.urihttp://ir.niist.res.in:8080/jspui/handle/123456789/2193-
dc.description.abstractThe mechanism of the unique reaction Of Cp2Ti(C4H4) with MeCN yielding benzene and pyridine is unraveled using the DFT method. This reaction is characterized by the cleavage of two CC double bonds and one CN triple bond. Two separate mechanisms have been determined for these bond cleavages, wherein the first one involves two and the second one involves three MeCN molecules. In both these mechanisms, aromaticity-driven steps are identified on the basis of delocalized electronic structures, energetic stabilization, and significant NICS values of the intermediates. The aromaticity is a dominant factor for the high exothermicity of 65.8 kcal/mol found in the second mechanism. The third MeCN was very important for the CN triple bond breaking stage of the second mechanism, as it stabilized the titanium nitride intermediate by forming an aromatic TiNCN titanacycle. The pi orbitals of the intermediate 4 pi-electron TiCCC and TiNCN titanacycles are found to be stabilized by participation of a vacant Ti "d" orbital in the 4 pi-electron conjugation, which is an important factor of aromaticity in metalloaromatic systems. Moreover, the agostic bonding interactions of the type recently identified in ruthenacyclobutanes have also been found in the intermediate 4 pi-electron titanacycles. Similar bonding interactions also occur in the 4 pi-electron tungstenacyclobutadiene of the Schrock complex W[CHCHCH]Cl-3. To our knowledge, this reaction is the first theoretical study of an aromaticity-driven organo-transition metal reactionen_US
dc.language.isoenen_US
dc.publisherAmerican Chemical Societyen_US
dc.subjectTransition structuresen_US
dc.subjectOxidative cleavageen_US
dc.subjectChemical shiftsen_US
dc.subjectAcetylenesen_US
dc.subjectCarbon carbon bonden_US
dc.subjectEffective core potentialsen_US
dc.subjectMetal insertionen_US
dc.subjectMolecular calculationsen_US
dc.titleAromaticity-driven rupture of CN triple and CC double bonds: Mechanism of the reaction between Cp2Ti(C4H4) and RCNen_US
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