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Diversity-oriented synthesis of P-stereogenic and axially chiral monodentate biaryl phosphines enabled by C-P bond cleavage

Author

Listed:
  • Liangzhi Pang

    (Anhui Agricultural University)

  • Zhan Huang

    (Anhui Agricultural University)

  • Qilin Sun

    (Anhui Agricultural University)

  • Gen Li

    (Anhui Agricultural University)

  • Jiaojiao Liu

    (Anhui Agricultural University)

  • Baoli Li

    (Anhui Agricultural University)

  • Congyue Ma

    (Anhui Agricultural University)

  • Jiaxu Guo

    (Anhui Agricultural University)

  • Chuanzhi Yao

    (Anhui Agricultural University)

  • Jie Yu

    (Anhui Agricultural University
    Anhui Agricultural University)

  • Qiankun Li

    (Anhui Agricultural University
    Anhui Agricultural University)

Abstract

Chiral monodentate biaryl phosphines (MOPs) have attracted intense attention as chiral ligands over the past decades. However, the creation of structurally diverse chiral MOPs with both P- and axial chirality is still in high demand but challenging. Here, we show a distinct strategy for diversity-oriented synthesis of structurally diverse MOPs containing both P- and axial chirality enabled by enantioselective C-P bond cleavage. The key chiral PdII intermediates, generated through the stereoselective oxidative addition of C-P bond, could be trapped by alkynes, R3Si-Bpin, diboron esters or reduced by H2O/B2pin2, leading to enantioenriched structurally diverse MOPs in excellent diastereo- and enantioselectivities. Based on the outstanding properties of the parent scaffolds, the P- and axially chiral monodentate biaryl phosphines serve as excellent catalysts in asymmetric [3 + 2] annulation of MBH carbonate affording the chiral functionalized bicyclic imide.

Suggested Citation

  • Liangzhi Pang & Zhan Huang & Qilin Sun & Gen Li & Jiaojiao Liu & Baoli Li & Congyue Ma & Jiaxu Guo & Chuanzhi Yao & Jie Yu & Qiankun Li, 2023. "Diversity-oriented synthesis of P-stereogenic and axially chiral monodentate biaryl phosphines enabled by C-P bond cleavage," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40138-8
    DOI: 10.1038/s41467-023-40138-8
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