Azophosphines: Synthesis, Structure and Coordination Chemistry

Emma Jordan; Ethan Calder; Holly Adcock; Louise Male; Martin Nieger; Chris Slootweg; Andrew Jupp

doi:10.26434/chemrxiv-2024-4kmw8

Azophosphines: Synthesis, Structure and Coordination Chemistry

Emma Jordan, Ethan Calder, Holly Adcock, Louise Male, Martin Nieger, Chris Slootweg, Andrew Jupp

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Abstract

The conceptual replacement of nitrogen with phosphorus in common organic functional groups unlocks new properties and reactivity. The phosphorus-containing analogues of triazenes are underexplored but offer great potential as flexible and small bite-angle ligands. This manuscript explores the synthesis and characterisation of a family of air-stable azophosphine-borane complexes, and their subsequent deprotection to the free azophosphines. These compounds are structurally characterised, both experimentally and computationally, and highlight the availability of the phosphorus lone pair for coordination. This is confirmed by demonstrating that neutral azophosphines can act as ligands in Ru complexes, and can coordinate as monodentate or bidentate ligands in a controlled manner, in contrast to their nitrogen analogues.

Original language	English
Publisher	ChemRxiv
Number of pages	6
DOIs	https://doi.org/10.26434/chemrxiv-2024-4kmw8
Publication status	Published - 23 Feb 2024

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AU - Calder, Ethan

AU - Adcock, Holly

AU - Male, Louise

AU - Nieger, Martin

AU - Slootweg, Chris

AU - Jupp, Andrew

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AB - The conceptual replacement of nitrogen with phosphorus in common organic functional groups unlocks new properties and reactivity. The phosphorus-containing analogues of triazenes are underexplored but offer great potential as flexible and small bite-angle ligands. This manuscript explores the synthesis and characterisation of a family of air-stable azophosphine-borane complexes, and their subsequent deprotection to the free azophosphines. These compounds are structurally characterised, both experimentally and computationally, and highlight the availability of the phosphorus lone pair for coordination. This is confirmed by demonstrating that neutral azophosphines can act as ligands in Ru complexes, and can coordinate as monodentate or bidentate ligands in a controlled manner, in contrast to their nitrogen analogues.

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Azophosphines: Synthesis, Structure and Coordination Chemistry

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