Robert Corbo scite author profile

We report the first examples of Au(III) tricationic complexes bound only by neutral monodentate ligands, which are a new class of gold reagents. Oxidative addition to the bis-pyridine Au(I) cation, [Au(4-DMAP)2](+), using a series of dicationic I(III) oxidants of the general form [PhI(L)2](2+) (L = pyridine, 4-DMAP, 4-cyanopyridine) allows ready access to homoleptic and pseudo-homoleptic Au(III) complexes [Au(4-DMAP)2(L)2](3+). The facile oxidative addition of Au(I) species additionally demonstrates the efficacy of PhI(L)2](2+) reagents as halide-free oxidants for Au(I). Comparisons are made via attempts to oxidize NHC-Au(I)Cl, where introduction of the chloride anion results in complex mixtures via ligand and chloride exchange, demonstrating the advantage of using the pyridine-based homoleptic compounds. The new Au(III) trications show intriguing reactivity with water, yielding dinuclear oxo-bridged and rare terminal Au(III)-OH complexes.

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Well defined difluorogold(iii) complexes supported by N-ligands

Albayer

Corbo

Dutton

2018

Chem. Commun.

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Weiss’ Reagents: A synthetically useful class of iodine(III) coordination compounds

Corbo

Dutton

2018

Coordination Chemistry Reviews

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Reactions of [PhI(pyridine)₂]²⁺ with Model Pd and Pt II/IV Redox Couples

et al. 2014

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The results of the reactions of the dicationic iodine(III) family of oxidants [PhI(pyridine)2](2+) with model Pd(II) and Pt(II) complexes are described. Depending on the specific reaction pairs, a variety of outcomes are observed. For palladium, Pd(IV) complexes cannot be observed but are implicated in C-C and C-N bond formation for Pd(II) starting materials based on phenylpyridine and 2,2-bipyridine, respectively. Theoretical comparisons with similar processes for -Cl and -OAc rather than pyridine indicate that these provide greater thermodynamic stability, and our results here show that they also give greater kinetic stability (the failure of MP2 methods for these systems is quite dramatic). In contrast, oxidation and delivery of the pyridine ligands gives dicationic Pt(IV) complexes that may be isolated and structurally characterized.

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Robert Corbo

The first bismuth–NHC complexes

Facile Formation of Homoleptic Au(III) Trications via Simultaneous Oxidation and Ligand Delivery from [PhI(pyridine)₂]²⁺

Well defined difluorogold(iii) complexes supported by N-ligands

Weiss’ Reagents: A synthetically useful class of iodine(III) coordination compounds

Reactions of [PhI(pyridine)₂]²⁺ with Model Pd and Pt II/IV Redox Couples

Contact Info

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About

Robert Corbo

The first bismuth–NHC complexes

Facile Formation of Homoleptic Au(III) Trications via Simultaneous Oxidation and Ligand Delivery from [PhI(pyridine)2]2+

Well defined difluorogold(iii) complexes supported by N-ligands

Weiss’ Reagents: A synthetically useful class of iodine(III) coordination compounds

Reactions of [PhI(pyridine)2]2+ with Model Pd and Pt II/IV Redox Couples

Contact Info

Product

Resources

About

Facile Formation of Homoleptic Au(III) Trications via Simultaneous Oxidation and Ligand Delivery from [PhI(pyridine)₂]²⁺

Reactions of [PhI(pyridine)₂]²⁺ with Model Pd and Pt II/IV Redox Couples