Anna C. Grunwald scite author profile

We report a mechanistic study of C(sp)-H bond activation mediated by nickel. Cyclometalated Ni(II) ureate [(PEt)Ni(κ- C,N,N-(CH)N(Cy)(CO)N((N)-quinolin-8-yl))] was synthesized and isolated from the urea precursor, (Me)(Cy)N(CO)N(H)(quinolin-8-yl), via C(sp)-H activation. We investigated the effects of solvents and base additives on the rate of C-H activation. Kinetic isotope effect experiments showed that C-H activation is rate determining. Through deuterium labeling and protonation studies, we also showed that C-H activation can be reversible. We extended this reaction to a range of ureas with primary and secondary C(sp)-H bonds, which activate readily to form analogous nickelated products. Finally, we showed that carboxylate additives assist with both ligand dissociation and initial N-H bond activation, consistent with a concerted metalation-deprotonation mechanism.

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One Ligand, One Metal, Seven Oxidation States: Stable Technetium Complexes with the “Kläui Ligand”

Grunwald

Scholtysik

Hagenbach

et al. 2020

Inorg. Chem.

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A series of technetium complexes with (η5-cyclopentadienyl)tris(dimethyl phosphito-P)cobaltate(III), also known as the “Kläui ligand” {LOMe}−, has been prepared. The products span seven different oxidation states (+1 to +7) of the radioactive transition metal and comprise nitrosyl, halide, oxido and nitrido complexes. All members of this series ([TcI(NO)Cl(PPh3)(LOMe)], [TcII(NO)Cl2(LOMe)], [TcIIICl2(PPh3)(LOMe)], [TcIVCl3(LOMe)], [TcVOCl2(LOMe)], [TcVNCl(PPh3)(LOMe)], [TcVINCl2(LOMe)], and [TcVIIO3(LOMe)] are air- and water-stable compounds, which recommends this class of technetium complexes as potential candidates for nuclear medical imaging procedures.

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XLVI. On the remarkable relationships between the spectrum of water-vapour and the line-spectra of hydrogen and oxygen, and on the chemical structure of the two latter, and their dissociation in the sun's atmosphere

Grunwald¹

1887

The London, Edinburgh, and Dublin Philosophical Magazine and Jo

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Metal Complexes with Tripodal and Chelating Thiourea Ligands towards Nuclear Medical Imaging

Grunwald¹

2021

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Anna C. Grunwald

Understanding Ni(II)-Mediated C(sp³)–H Activation: Tertiary Ureas as Model Substrates

One Ligand, One Metal, Seven Oxidation States: Stable Technetium Complexes with the “Kläui Ligand”

XLVI. On the remarkable relationships between the spectrum of water-vapour and the line-spectra of hydrogen and oxygen, and on the chemical structure of the two latter, and their dissociation in the sun's atmosphere

Metal Complexes with Tripodal and Chelating Thiourea Ligands towards Nuclear Medical Imaging

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Anna C. Grunwald

Understanding Ni(II)-Mediated C(sp3)–H Activation: Tertiary Ureas as Model Substrates

One Ligand, One Metal, Seven Oxidation States: Stable Technetium Complexes with the “Kläui Ligand”

XLVI. On the remarkable relationships between the spectrum of water-vapour and the line-spectra of hydrogen and oxygen, and on the chemical structure of the two latter, and their dissociation in the sun's atmosphere

Metal Complexes with Tripodal and Chelating Thiourea Ligands towards Nuclear Medical Imaging

Contact Info

Product

Resources

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Understanding Ni(II)-Mediated C(sp³)–H Activation: Tertiary Ureas as Model Substrates