Paul C. J. Kamer scite author profile

The reactivity of organotransition metal complexes is dependent on the ligand environment of the metal. This Account describes the development and application of new diphosphine ligands, designed to induce large P-M-P angles in transition metal complexes. Aided by computational chemistry, a homologous range of diphosphines based on rigid heterocyclic aromatic backbones of the xanthene-type with natural bite angles of approximately 100-134 degrees have been developed. The special structure of the ligands has an enormous impact on stability and reactivity of various transition metal complexes. Highly active and selective catalysts have been obtained by influencing this reactivity.

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Dendrimers as Support for Recoverable Catalysts and Reagents

Heerbeek

et al. 2002

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Selective Pd-Catalyzed Oxidative Coupling of Anilides with Olefins through C−H Bond Activation at Room Temperature

et al. 2002

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Paul C. J. Kamer

Ligand Bite Angle Effects in Metal-catalyzed C−C Bond Formation

Wide Bite Angle Diphosphines: Xantphos Ligands in Transition Metal Complexes and Catalysis

Dendrimers as Support for Recoverable Catalysts and Reagents

Selective Pd-Catalyzed Oxidative Coupling of Anilides with Olefins through C−H Bond Activation at Room Temperature

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