Enantioenriched molybdenum dearomatization: dissociative substitution with configurational stability

Shivokevich, P. J.; Myers, J. T.; Smith, J. A.; Pienkos, J. A.; Dakermanji, S. J.; Pert, E. K.; Welch, K. D.; Trindle, C. O.; Harman, D. Enantioenriched molybdenum dearomatization: dissociative substitution with configurational stability. Organometallics 2018, 37, 4446–4456.

Abstract

The preparation and properties of the complex (RMo,R)-MoTp(NO)(DMAP)(η2-α-pinene) are described (∼10 g scale; DMAP = 4-(dimethylamino)pyridine; Tp = hydridotris(pyrazolyl)borate). This complex undergoes exchange of the pinene with a wide range of other π ligands including acetone, ethyl acetate, N,N-dimethylformamide, acetonitrile, and naphthalene. Treatment of the α-pinene complex with iodine results in the complex (S)-MoTp(NO)(DMAP)(I), which is recovered in enantioenriched form (er = 99:1; yield >90%; scale 4.6 g). Reduction of this molybdenum(I) precursor results in enantioenriched molybdenum(0) complexes, including (R)-MoTp(NO)(DMAP)(η2-trifluorotoluene). Sequential treatment of this arene complex with acid, a masked enolate, and iodine regenerates MoTp(NO)(DMAP)(I) along with an alkylated 1-(trifluoromethyl)cyclohexa-1,3-diene with an er value as high as 99:1. This process demonstrates the efficient transfer of asymmetry from α-pinene to the diene product. Accompanying studies with (1R)-myrtenal reveal a redox-catalyzed pinene/myrtenal ligand exchange occurring through Mo(I) intermediates.

Last updated on 06/04/2026

Principal Investigator

Graduate Students

Undergraduate Students

  • Aparna
    Undergraduate Researcher (4th year)
    Rings and Things

Alumni