Benjamin D. Crossley scite author profile

Novel rhodium, iridium, and ruthenium half-sandwich complexes containing (N,N)-bound picolinamide ligands have been prepared for use as anticancer agents. The complexes show promising cytotoxicities, with the presence, position, and number of halides having a significant effect on the corresponding IC50 values. One ruthenium complex was found to be more cytotoxic than cisplatin on HT-29 and MCF-7 cells after 5 days and 1 h, respectively, and it remains active with MCF-7 cells even under hypoxic conditions, making it a promising candidate for in vivo studies.

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Enhanced cytotoxicity of silver complexes bearing bidentate N-heterocyclic carbene ligands

Monteiro

Phillips

Crossley

et al. 2012

Dalton Trans.

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Mechanistic and Cytotoxicity Studies of Group IV β‐Diketonate Complexes

Lord¹,

Mannion²,

Hebden³

et al. 2014

ChemMedChem

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Activation and Deactivation of a Robust Immobilized CpIr-Transfer Hydrogenation Catalyst: A Multielement in Situ* X-ray Absorption Spectroscopy Study

et al. 2015

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A highly robust immobilized [Cp*IrCl2]2 precatalyst on Wang resin for transfer hydrogenation, which can be recycled up to 30 times, was studied using a novel combination of X-ray absorption spectroscopy (XAS) at Ir L3-edge, Cl K-edge, and K K-edge. These culminate in in situ XAS experiments that link structural changes of the Ir complex with its catalytic activity and its deactivation. Mercury poisoning and "hot filtration" experiments ruled out leached Ir as the active catalyst. Spectroscopic evidence indicates the exchange of one chloride ligand with an alkoxide to generate the active precatalyst. The exchange of the second chloride ligand, however, leads to a potassium alkoxide-iridate species as the deactivated form of this immobilized catalyst. These findings could be widely applicable to the many homogeneous transfer hydrogenation catalysts with Cp*IrCl substructure.

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β-Diketonate Titanium Compounds Exhibiting High In Vitro Activity and Specific DNA Base Binding

et al. 2016

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