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Geometrically constrained square pyramidal phosphoranide.

Solomon Volodarsky1, Irina Malahov1, Deependra Bawari1

  • 1School of Chemistry, Raymond and Beverly Sackler Faculty of Exact Sciences, Tel Aviv University Department Tel Aviv 69978 Israel rdobrove@tau.ac.il.

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|June 10, 2022
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Summary
This summary is machine-generated.

Geometrically constrained square pyramidal phosphoranide anions exhibit novel reactivity. This study details their synthesis and demonstrates unique nucleophilic and reductive properties, unlike their trigonal bipyramidal counterparts.

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Area of Science:

  • Main group chemistry
  • Organophosphorus chemistry
  • Coordination chemistry

Background:

  • Geometrical constriction is a key strategy to tune main group element reactivity.
  • Group 15 elements, particularly phosphorus, are a major focus for these methods.
  • Trigonal bipyramidal (TBP) phosphoranides are known nucleophiles, but their redox chemistry is largely unexplored.

Purpose of the Study:

  • To synthesize and isolate a geometrically constrained, square pyramidal (SP) phosphoranide anion.
  • To investigate the reactivity of this novel SP phosphoranide, focusing on its nucleophilic and redox behavior.
  • To explore unprecedented reaction pathways for phosphoranyl radicals.

Main Methods:

  • Synthesis and isolation of the square pyramidal phosphoranide anion (1-).
  • Preliminary reactivity studies including chemical oxidation and reaction with benzophenone.
  • Characterization of reaction products, including a P-P dimer and tetraphenyl epoxide.

Main Results:

  • The SP phosphoranide anion (1-) was successfully synthesized and isolated.
  • Unlike TBP phosphoranides, 1- displays both nucleophilic and reductive properties.
  • Chemical oxidation of 1- yields a P-P dimer (1-1) via dimerization of an unstable SP phosphoranyl radical (1˙).
  • Reaction with benzophenone proceeds via single electron transfer (SET), forming 1-OK and tetraphenyl epoxide (4).

Conclusions:

  • Geometrically constrained SP phosphoranides offer unique reactivity profiles.
  • The observed P-P dimer formation represents an unprecedented decay pathway for phosphoranyl radicals.
  • This work expands the known reactivity of phosphorus-based main group compounds.