67 / 2023-08-16 15:05:14
Electrochemical activation of P4 for the synthesis of organophosphorus compounds and complex structures
P4 activation; Electrochemistry; Dicyanophosphide; 2-Center-3-electron π-bond
Abstract Accepted
Yanbo Mei / Southern University of Science and Technology
Zeen Yan / Southern University of Science and Technology
Liu Leo Liu / Southern University of Science and Technology
Organophosphorus compounds (OPCs) have wide applications ranging from synthetic chemistry to materials and biological sciences. The synthetic methods of most OPCs mainly rely on toxic and corrosive PCl3 and PH3 as phosphorus transfer reagents. We describe herein a practical and versatile approach for the transformation of white phosphorus (P4) into useful OPCs with high P atom economy via a key bridging anion dicyanophosphide [P(CN)2]. This anion can be directly prepared on a gram scale from P4 through an electrochemical process using simple starting materials. A variety of valuable OPCs involving phosphinidenes, cyclophosphanes, and phospholides have been made readily accessible from P4 in a two-step manner.

Other unprecedented complex structures with unique electronic properties can also be achieved from [P(CN)2]. We demonstrate the synthesis of radical anion featuring a 2-center-3-electron π-bond based on phosphorus atoms. In addition, CAAC stabilized tri-phosphorus anion [P3], the heavier analogue of azide anion, and its derivatives were obtained from [P(CN)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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