Controlling Oxidative Addition and Reductive Elimination at Tin(I) via Hemi‐Lability

We report on the reversible uptake of carbon dioxide by dimetallynes featuring ancillary hemi-labile pincer ligands. Insertion into the GeÀ Ge/SnÀ Sn bonds yields species containing an E(CO 2 )E unit, with the mode of ligation of the CO 2 fragment determined crystallographically being found to be dependent on the identity of the Group 14 element. The thermodynamics of CO 2 uptake/loss can be established through VT NMR (ΔH°= + 24.6(2.3) kJ mol À 1 , ΔS°= + 64.9(3.8) J mol À 1 K À 1 , ΔG°2 98 = + 5.3(1.9) kJ mol À 1 for the loss of CO 2 in the Ge case), and the chemical consequences of reversibility demonstrated by thermodynamically-controlled exchange reactions.

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Reversible Uptake of CO₂ by Pincer Ligand Supported Dimetallynes

Caise

Griffin

McManus

et al. 2022

Angewandte Chemie

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Reversible Uptake of CO₂ by Pincer Ligand Supported Dimetallynes

et al. 2022

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Controlling Oxidative Addition and Reductive Elimination at Tin(I) via Hemi‐Lability

Cited by 2 publications

References 67 publications

Reversible Uptake of CO₂ by Pincer Ligand Supported Dimetallynes

Reversible Uptake of CO₂ by Pincer Ligand Supported Dimetallynes

Reversible Uptake of CO₂ by Pincer Ligand Supported Dimetallynes

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Controlling Oxidative Addition and Reductive Elimination at Tin(I) via Hemi‐Lability

Cited by 2 publications

References 67 publications

Reversible Uptake of CO2 by Pincer Ligand Supported Dimetallynes

Reversible Uptake of CO2 by Pincer Ligand Supported Dimetallynes

Reversible Uptake of CO2 by Pincer Ligand Supported Dimetallynes

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Reversible Uptake of CO₂ by Pincer Ligand Supported Dimetallynes

Reversible Uptake of CO₂ by Pincer Ligand Supported Dimetallynes

Reversible Uptake of CO₂ by Pincer Ligand Supported Dimetallynes