Synthesis and reactivity of an N-triphos Mo(0) dinitrogen complex

Abstract: The preparation and reactivity of a novel molybdenum dinitrogen complex supported by a nitrogen-centred tripodal phosphine ligand (N-triphos, N(CH2PPh2)3, NP3Ph) are reported. Reaction of N-triphos with [MoX3(THF)3] (X = Cl, Br, I) gave the Mo(iii) complex [MoX3(κ2-NP3Ph)(THF)] (1), where bidentate N-triphos coordination was observed. Reduction of this complex in the presence of dppm (bis(diphenylphosphino)methane) gave the dinitrogen complex [Mo(N2)(dppm)(κ3-NP3Ph)] (2), which exhibits moderate dinitrogen act… Show more

“… 37 This ligand was selected due to its ease of synthesis and its known propensity toward forming facial κ 3 -coordination geometries with transition metals in a number of different oxidation states. 38 , 40 , 41 …”

“… 34 − 36 Previous work in our group has utilized the facial coordination of these ligands in the synthesis of hydrogenation catalysts for biomass-derived levulinic acid with ruthenium and other transition metals; 37 − 39 investigation of the electronic and steric properties of several NP 3 R ligands with tungsten; 40 and dinitrogen coordination and activation using molybdenum and cobalt complexes. 41 , 42 …”

N-Centered Tripodal Phosphine Re(V) and Tc(V) Oxo Complexes: Revisiting a [3 + 2] Mixed-Ligand Approach

“… 37 This ligand was selected due to its ease of synthesis and its known propensity toward forming facial κ 3 -coordination geometries with transition metals in a number of different oxidation states. 38 , 40 , 41 …”

“… 34 − 36 Previous work in our group has utilized the facial coordination of these ligands in the synthesis of hydrogenation catalysts for biomass-derived levulinic acid with ruthenium and other transition metals; 37 − 39 investigation of the electronic and steric properties of several NP 3 R ligands with tungsten; 40 and dinitrogen coordination and activation using molybdenum and cobalt complexes. 41 , 42 …”

N-Centered Tripodal Phosphine Re(V) and Tc(V) Oxo Complexes: Revisiting a [3 + 2] Mixed-Ligand Approach

“…Our group has been investigating the N-triphos ligand motif ({N(CH2PR2)3}), [9][10][11][12][13] and recently, we reported a Mo/N-triphos N2 complex. This complex showed moderate N2 activation that was comparable to the C-triphos analogue, but with a varied reactivity profile.…”

“…This complex showed moderate N2 activation that was comparable to the C-triphos analogue, but with a varied reactivity profile. 13 Of the many triphos derivatives, N-triphos is advantageous (particularly over the similar C-triphos system), due to the ease of synthetic tunability of the steric and electronic ligand parameters, and the accessible lone pair on the apical nitrogen provides an additional reactive site. 11,12 We sought to investigate the relatively unexplored potential of cobalt for N2 activation using the neutral N-triphos (N(CH2PPh2)3 or NP3 Ph ) and C-triphos ({MeC(CH2PPh2)3} or MeCP3 Ph ) scaffolds.…”

Cobalt(-i) triphos dinitrogen complexes: activation and silyl-functionalisation of N₂

“…Their hydride peaks all show a single well-defined triplet, the intensity of which cannot be compared to any other signal in the spectrum to establish whether it corresponds to one or two hydrogens. 43 Low temperature spectra recorded down to −76 °C did not help clarify this point (Fig. SI-30 † ).…”

HCOOH disproportionation to MeOH promoted by molybdenum PNP complexes