TY - JOUR
T1 - An Anion-Dependent Switch in Selectivity Results from a Change of C-H Activation Mechanism in the Reaction of an Imidazolium Salt with IrH5(PPh3)2
AU - Appelhans, Leah N.
AU - Zuccaccia, Daniele
AU - Kovacevic, Anes
AU - Chianese, Anthony R.
AU - Miecznikowski, John R.
AU - Macchioni, Alceo
AU - Clot, Eric
AU - Eisenstein, Odile
AU - Crabtree, Robert H.
PY - 2005/1/1
Y1 - 2005/1/1
N2 - Changing the counteranion along the series Br, BF4, PF6, SbF6 in their ion-paired 2-pyridylmethyl imidazolium salts causes the kinetic reaction products with IrH5(PPh3)2 to switch from chelating N-heterocyclic carbenes (NHCs) having normal C2 (N path) to abnormal C5 binding (AN path). Computational work (DFT) suggests that the AN path involves C−H oxidative addition to IrIII to give IrV with little anion dependence. The N path, in contrast, goes by heterolytic C−H activation with proton transfer to the adjacent hydride. The proton that is transferred is accompanied by the counteranion in an anion-coupled proton transfer, leading to an anion dependence of the N path, and therefore of the N/AN selectivity. The N path goes via IrIII, not IrV, because the normal NHC is a much less strong donor ligand than the abnormal NHC. PGSE NMR experiments support the formation of ion-pair in both the reactants and the products. 19F,1H-HOESY NMR experiments indicate an ion-pair structure for the products that is consistent with the computational prediction (ONIOM(B3PW91/UFF)).
AB - Changing the counteranion along the series Br, BF4, PF6, SbF6 in their ion-paired 2-pyridylmethyl imidazolium salts causes the kinetic reaction products with IrH5(PPh3)2 to switch from chelating N-heterocyclic carbenes (NHCs) having normal C2 (N path) to abnormal C5 binding (AN path). Computational work (DFT) suggests that the AN path involves C−H oxidative addition to IrIII to give IrV with little anion dependence. The N path, in contrast, goes by heterolytic C−H activation with proton transfer to the adjacent hydride. The proton that is transferred is accompanied by the counteranion in an anion-coupled proton transfer, leading to an anion dependence of the N path, and therefore of the N/AN selectivity. The N path goes via IrIII, not IrV, because the normal NHC is a much less strong donor ligand than the abnormal NHC. PGSE NMR experiments support the formation of ion-pair in both the reactants and the products. 19F,1H-HOESY NMR experiments indicate an ion-pair structure for the products that is consistent with the computational prediction (ONIOM(B3PW91/UFF)).
UR - https://digitalcommons.fairfield.edu/chemistry-facultypubs/10
UR - https://libraryapps.fairfield.edu/openurl?paramdict=en-US&genre=article&spage=16299&SS_issnh=0002-7863&issn=00027863&SS_referer=http%3A%2F%2Fscholar.google.com%2Fscholar%3Fq%3DJ.R.%2BMiecznikowski%26btnG%3D%26hl%3Den%26as_sdt%3D0%252C7&issue=46&auinit=LN&date=2005-11&aulast=Appelhans&atitle=An+Anion-Dependent+Switch+in+Selectivity+Results+from+a+Change+of+C%E2%88%92H+Activation+Mechanism+in+the+Reaction+of+an+Imidazolium+Salt+with+IrH++++++++++++++%28PPh++++++++++++++%29&title=Journal+of+the+American+Chemical+Society&localeid=1033&aufirst=Leah¶mdict=en-US&SS_LibHash=DS3US6US9G&sid=google&pages=16299-16311&SS_source=51&l=DS3US6US9G&SS_meta_enhanced=true&SS_ReferentFormat=JournalFormat&SS_doi=10.1021%2Fja055317j&au=Appelhans%2C+Leah+N.&auinitm=N.&volume=127&SS_RequestType=1&epage=16311&&SS_PostParamDict=disableOneClick
U2 - 10.1021/ja055317j
DO - 10.1021/ja055317j
M3 - Article
VL - 127
JO - Journal of the American Chemical Society
JF - Journal of the American Chemical Society
ER -