Dean Boures scite author profile

Mono(phosphine)-M (M-PR3; M = Rh and Ir) complexes selectively prepared by postsynthetic metalation of a porous triarylphosphine-based metal-organic framework (MOF) exhibited excellent activity in the hydrosilylation of ketones and alkenes, the hydrogenation of alkenes, and the C-H borylation of arenes. The recyclable and reusable MOF catalysts significantly outperformed their homogeneous counterparts, presumably via stabilizing M-PR3 intermediates by preventing deleterious disproportionation reactions/ligand exchanges in the catalytic cycles.

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Cerium-Hydride Secondary Building Units in a Porous Metal–Organic Framework for Catalytic Hydroboration and Hydrophosphination

Sawano

Lin

et al. 2016

J. Am. Chem. Soc.

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We report the stepwise, quantitative transformation of Ce(μ-O)(μ-OH)(OH)(OH) nodes in a new Ce-BTC (BTC = trimesic acid) metal-organic framework (MOF) into the first Ce(μ-O)(μ-OLi)(H)(THF)Li metal-hydride nodes that effectively catalyze hydroboration and hydrophosphination reactions. CeH-BTC displays low steric hindrance and electron density compared to homogeneous organolanthanide catalysts, which likely accounts for the unique 1,4-regioselectivity for the hydroboration of pyridine derivatives. MOF nodes can thus be directly transformed into novel single-site solid catalysts without homogeneous counterparts for sustainable chemical synthesis.

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Procedure for the Transfer of Polymer Films Onto Porous Substrates with Minimized Defects

Guio

Liu

Boures

et al. 2019

JoVE

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Procedure for the Transfer of Polymer Films Onto Porous Substrates with Minimized Defects

Guio

Liu

Boures

et al. 2019

JoVE

View full text Add to dashboard Cite

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Dean Boures

Metal–Organic Frameworks Stabilize Mono(phosphine)–Metal Complexes for Broad-Scope Catalytic Reactions

Cerium-Hydride Secondary Building Units in a Porous Metal–Organic Framework for Catalytic Hydroboration and Hydrophosphination

Procedure for the Transfer of Polymer Films Onto Porous Substrates with Minimized Defects

Procedure for the Transfer of Polymer Films Onto Porous Substrates with Minimized Defects

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