Lauren N. Grant scite author profile

Uranium complexes in the +3 and +4 oxidation states were prepared using the anionic PN (PN = ( N-(2-(diisopropylphosphino)-4-methylphenyl)-2,4,6-trimethylanilide) ligand framework. New complexes include the halide starting materials, (PN)UI (1) and (PN)UCl (2), which both yield (PN)U(N) (3) by reaction with NaN. Compound 3 was reduced with potassium graphite to produce a putative, transient uranium-nitrido moiety that underwent an intramolecular C-H activation to form a rare example of a parent imido complex, [K(THF)][(PN)U(═NH)[ PrP(CHMe)N(CHMeCH)]] (4). Calculated reaction energy profiles strongly suggest that a C-H insertion becomes unfavorable when a reductant is present, offering a distinctively different reaction pathway than previously observed for other uranium nitride complexes.

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Electronic Structure and Reactivity of a Well-Defined Mononuclear Complex of Ti(II)

Wijeratne

Zolnhofer

Fortier

et al. 2015

Inorg. Chem.

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A facile and high-yielding protocol to the known Ti(II) complex trans-[(py)4TiCl2] (py = pyridine) has been developed. Its electronic structure has been probed experimentally using magnetic susceptibility, magnetic circular dichroism, and high-frequency and high-field electron paramagnetic resonance spectroscopies in conjunction with ligand-field theory and computational methods (density functional theory and ab initio methods). These studies demonstrated that trans-[(py)4TiCl2] has a (3)Eg ground state (dxy(1)dxz,yz(1) orbital occupancy), which, as a result of spin–orbit coupling, yields a ground-state spinor doublet that is EPR active, a first excited-state doublet at ∼60 cm(–1), and two next excited states at ∼120 cm(–1). Reactivity studies with various unsaturated substrates are also presented in this study, which show that the Ti(II) center allows oxidative addition likely via formation of [Ti(η(2)-R2E2)Cl2(py)n] E = C, N intermediates. A new Ti(IV) compound, mer-[(py)3(η(2)-Ph2C2)TiCl2], was prepared by reaction with Ph2C2, along with the previously reported complex trans-(py)3Ti═NPh(Cl)2, from reaction with Ph2N2. Reaction with Ph2CN2 also yielded a new dinuclear Ti(IV) complex, [(py)2(Cl)2Ti(μ2:η(2)-N2CPh2)2Ti(Cl)2], in which the two Ti(IV) ions are inequivalently coordinated. Reaction with cyclooctatetraene (COT) yielded a new Ti(III) complex, [(py)2Ti(η(8)-COT)Cl], which is a rare example of a mononuclear “piano-stool” titanium complex. The complex trans-[(py)4TiCl2] has thus been shown to be synthetically accessible, have an interesting electronic structure, and be reactive toward oxidation chemistry.

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A Scandium‐Stabilized Diisophosphaethynolate Ligand: [OCPPCO]⁴⁻

et al. 2017

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The first example of the OCPPCO ligand, diisophosphaethynolate, is reported via reductive coupling of a Sc-OCP precursor. Upon reduction with KC , isolation of the dinuclear complex, namely [K(OEt )] [(nacnac)Sc(OAr)] (OCPPCO), is observed, leading to a unique motif [OCPPCO] , stabilized by two scandium centers. Detailed NMR spectra of all complexes as well as IR and single crystal X-ray studies were obtained to fully elucidate the nature of these complexes in solution as well as in the solid state. Theory is combined to probe the electronic structure and orbitals responsible for the bonding interactions in the Sc-OCPPCO-Sc skeleton but also to compare to the linear mode observed in the precursor.

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Lauren N. Grant

1,2-Addition and cycloaddition reactions of niobium bis(imido) and oxo imido complexes

Molecular titanium nitrides: nucleophiles unleashed

C–H Bond Addition across a Transient Uranium–Nitrido Moiety and Formation of a Parent Uranium Imido Complex

Electronic Structure and Reactivity of a Well-Defined Mononuclear Complex of Ti(II)

A Scandium‐Stabilized Diisophosphaethynolate Ligand: [OCPPCO]⁴⁻

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Lauren N. Grant

1,2-Addition and cycloaddition reactions of niobium bis(imido) and oxo imido complexes

Molecular titanium nitrides: nucleophiles unleashed

C–H Bond Addition across a Transient Uranium–Nitrido Moiety and Formation of a Parent Uranium Imido Complex

Electronic Structure and Reactivity of a Well-Defined Mononuclear Complex of Ti(II)

A Scandium‐Stabilized Diisophosphaethynolate Ligand: [OCPPCO]4−

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A Scandium‐Stabilized Diisophosphaethynolate Ligand: [OCPPCO]⁴⁻