Borirenes and Boriranes: Development and Perspectives

Wang, Junyi; Ye, Qing

doi:10.1002/chem.202303695

“…On the other hand, borirenes 17–24 and boriranes 8,9,24–35 have gained attention due to their unique electronic and structural features. 36 Typically, these small boracycles can undergo ring-opening reactions under irradiation 22 or thermal conditions, 26–29 or when reacting with polar bonds. 22,23,30,31 However, it should be noted that their application in synthesis remains somewhat limited.…”

Section: Introductionmentioning

confidence: 99%

“…Most importantly, it has become evident that they can be applied as “C 2 B” synthons for organic and organometallic synthesis. 36 It is noteworthy that, despite extensive research, their reactivity towards organic azides has not yet been reported.…”

Section: Introductionmentioning

confidence: 99%

Avenue to novel o-carboranyl boron compounds – reactivity study of o-carborane-fused aminoborirane towards organic azides

Wang,

Xiang,

Liu

et al. 2024

Chem. Sci.

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Aromative Dephosphinidenation of a Bisphosphirane‐Fused Anthracene toward E−H (E=H, Si, N and P) Bond Activation

Luo,

Liu,

Huang

et al. 2024

Angewandte Chemie

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A bisphosphirane‐fused anthracene (5) was prepared by treatment of a sterically encumbered amino phosphorus dichloride (3) with MgA•3THF (A = anthracene). X‐ray diffraction analysis revealed a pentacyclic framework consisting of 5 with two phosphirane rings fused to the anthracene in a trans‐fashion. Compound 5 has been shown to be an efficient phosphinidene synthon, readily liberating two transient phosphinidene units for subsequent downstream bond activation via the reductive elimination of anthracene under mild conditions. The formal oxidative addition of H2 and E‐H (E = Si, N, P) bonds by the liberated phosphinidene provided diphosphine and substituted phosphines. Furthermore, phosphinidene transfer to alkenes and alkynes smoothly yielded the corresponding phosphiranes and phosphirenes. The mechanism of the H2 activation by 5 was investigated by density functional theory (DFT) calculations.

show abstract

Aromative Dephosphinidenation of a Bisphosphirane‐Fused Anthracene toward E−H (E=H, Si, N and P) Bond Activation

Luo,

Liu,

Huang

et al. 2024

Angew Chem Int Ed

0

View full text Add to dashboard Cite

A bisphosphirane‐fused anthracene (5) was prepared by treatment of a sterically encumbered amino phosphorus dichloride (3) with MgA•3THF (A = anthracene). X‐ray diffraction analysis revealed a pentacyclic framework consisting of 5 with two phosphirane rings fused to the anthracene in a trans‐fashion. Compound 5 has been shown to be an efficient phosphinidene synthon, readily liberating two transient phosphinidene units for subsequent downstream bond activation via the reductive elimination of anthracene under mild conditions. The formal oxidative addition of H2 and E‐H (E = Si, N, P) bonds by the liberated phosphinidene provided diphosphine and substituted phosphines. Furthermore, phosphinidene transfer to alkenes and alkynes smoothly yielded the corresponding phosphiranes and phosphirenes. The mechanism of the H2 activation by 5 was investigated by density functional theory (DFT) calculations.

show abstract

Borirenes and Boriranes: Development and Perspectives

Cited by 6 publications

References 101 publications

Avenue to novel o-carboranyl boron compounds – reactivity study of o-carborane-fused aminoborirane towards organic azides

Avenue to novel o-carboranyl boron compounds – reactivity study of o-carborane-fused aminoborirane towards organic azides

Aromative Dephosphinidenation of a Bisphosphirane‐Fused Anthracene toward E−H (E=H, Si, N and P) Bond Activation

Aromative Dephosphinidenation of a Bisphosphirane‐Fused Anthracene toward E−H (E=H, Si, N and P) Bond Activation

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