Isomerism in rhodium(I) N,S-donor heteroscorpionates: ring substituent and ancillary ligand effects

Robin J. Blagg, Neil G. Connelly, Mairi F. Haddow, Alex Hamilton, Matteo Lusi, A. Guy Orpen, Benjamin M. Ridgway

Research output: Contribution to journalArticle (Academic Journal)peer-review

18 Citations (Scopus)

Abstract

The heteroscorpionate ligands [HB(taz)(2)(pz(R))](-) (pz(R) = pz, pz(Me2), pz(Ph)) and [HB(taz)(pz)(2)](-), synthesised from the appropriate potassium hydrotris(pyrazolyl) borate salt and 4-ethyl-3-methyl-5-thioxo-1,2,4-triazole (Htaz), react with [{Rh(cod)(mu-Cl)}(2)] to give [Rh(cod)Tx] {Tx = HB(taz)(2)(pz), HB(taz)(2)(pz(Me2)), HB(taz)(2)(pz(Ph)), HB(taz)(pz)(2)}; the heteroscorpionate rhodaboratrane [Rh{B(taz)(2)(pz(Me2))}{HB(taz)(2)(pz(Me2))}] is the only isolable product from the reaction of [{Rh(nbd)(mu-Cl)}(2)] with K[HB(taz)(2)(pz(Me2))]. Carbonylation of the cod complexes gave a mixture of [Rh(CO)(2)Tx] and [(RhTx)(2)(mu-CO)(3)] which reacts with PR3 to give [Rh(CO)(PR3)Tx] (R = Cy, NMe2, Ph, OPh). In the solid state the complexes are square planar with the particular structure dependent on the steric and/or electronic properties of the scorpionate and ancillary ligands. The complex [Rh(cod){HB(taz)(pz)(2)}] has the heteroscorpionate kappa(2)[N-2]-coordinated to rhodium with the B-H bond directed away from the rhodium square plane while [Rh(cod){HB(taz)(2)(pz(Me2))}] is kappa(2)[SN]-coordinated, with the B-H bond directed towards the metal. The complexes [Rh(CO)(PPh3){HB(taz)(2)(pz)}] and [Rh(CO)(PPh3){HB(taz)(2)(pz(Me2))}] are also kappa(2)[SN]-coordinated but with the pyrazolyl ring cis to PPh3; in the former the B-H bond is directed towards rhodium while in the latter the ring is pseudo-parallel to the rhodium square plane, as also found for [Rh(CO)(2){HB(taz)(2)(pz(Me2))}]. The analogues [Rh(CO)(PR3){HB(taz)(2)(pz(Me2))}] (R = Cy, NMe2) have the phosphines trans to the pyrazolyl ring. Uniquely, [Rh(CO)(PPh3){HB(taz)(2)(pz(Ph))}] is kappa(2)[S-2]-coordinated. A qualitative mechanism is given for the rapid ring-exchange, and hence isomerisation, observed in solution.

Original languageEnglish
Pages (from-to)11616-11627
Number of pages12
JournalDalton Transactions
Volume39
Issue number48
DOIs
Publication statusPublished - 2010

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