78 / 2023-09-15 23:50:18
Redox-neutral activation of primary and secondary phosphate sources
Organophosphorus Chemistry,Sustainable Synthesis,Redox-neutral activation,Phosphorylation
Abstract Accepted
Tobias Schneider / Technische Universität Dresden
Kai Schwedtmann / Technische Universität Dresden
Jannis Fidelius / Technische Universität Dresden
Jan J. Weigand / Technische Universität Dresden
Phosphorus and its derivatives are crucial components in biological systems and find diverse applications in both life sciences and material-oriented fields. Despite their significance, the current method for synthesizing phosphorus-based fine and bulk chemicals is inefficient and wasteful, relying on a redox detour from primary phosphate (PV) sources through elemental white phosphorus and its conversion via (oxy)chlorination to produce PCl3, PCl5 and POCl3. This energy-intensive process renders it unsustainable in the long term, necessitating a comprehensive reevaluation of the synthetic route to enhance the efficiency and sustainability of fine and bulk chemical production.

Building upon previous research regarding the deoxygenation of arsine oxides, we introduce a novel approach employing trifluoromethanesulfonic anhydride (Tf2O) and pyridine to directly cleave P–O bonds in ubiquitous PV sources. This innovative method results in the formation of a highly versatile PO2+ phosphorylation agent 1[OTf], offering an economical and redox-neutral pathway for synthesizing various PV chemicals using low-cost phosphoric acid and other phosphate sources. Furthermore, it provides an entrance for the synthesis of intriguing molecules, such as the azidophosphate 2.
Important Date
  • Conference Date

    Nov 12

    2023

    to

    Nov 16

    2023

  • Oct 24 2023

    Draft paper submission deadline

  • Nov 16 2023

    Registration deadline

Sponsored By
Ningbo University
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