Synthesis of Benzoisoselenazolones via Rh(III)‐Catalyzed Direct Annulative Selenation by Using Elemental Selenium

Isoselenazolone derivatives have attracted significant research interest because of their potent therapeutic activities and indispensable applications in organic synthesis. Efficient construction of functionalized isoselenazolone scaffolds is still challenging, and thus new synthetic approaches with...

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Veröffentlicht in:	Chemistry : a European journal 2021-12, Vol.27 (71), p.17952-17959
Hauptverfasser:	Xu‐Xu, Qing‐Feng, Nishii, Yuji, Uetake, Yuta, Sakurai, Hidehiro, Miura, Masahiro
Format:	Artikel
Sprache:	eng
Schlagworte:	annulation benzoisoselenazolone Catalysis Cyclodextrins C−H functionalization rhodium catalysis Selenium
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creator	Xu‐Xu, Qing‐Feng Nishii, Yuji Uetake, Yuta Sakurai, Hidehiro Miura, Masahiro
description	Isoselenazolone derivatives have attracted significant research interest because of their potent therapeutic activities and indispensable applications in organic synthesis. Efficient construction of functionalized isoselenazolone scaffolds is still challenging, and thus new synthetic approaches with improved operational simplicity have been of particular interest. In this manuscript, we introduce a rhodium‐catalyzed direct selenium annulation by using stable and tractable elemental selenium. A series of benzamides as well as acrylamides were successfully coupled with selenium under mild reaction conditions, and the obtained isoselenazolones could be pivotal synthetic precursors for several organoselenium compounds. Based on the designed control experiments and X‐ray absorption spectroscopy measurements, we propose an unprecedented selenation mechanism involving a highly electrophilic Se(IV) species as the reactive selenium donor. The reaction mechanism was further verified by a computational study. A Rh(III)‐catalyzed direct selenium annulation by using stable and tractable elemental selenium is developed. A series of benzamides as well as acrylamides were successfully coupled with selenium under mild reaction conditions to give isoselenazolone derivatives. An unprecedented selenation mechanism involving an electrophilic Se(IV) species as the reactive selenium donor is proposed based on the designed control experiments, X‐ray absorption spectroscopy, and computational study.
doi_str_mv	10.1002/chem.202103485
format	Article
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Efficient construction of functionalized isoselenazolone scaffolds is still challenging, and thus new synthetic approaches with improved operational simplicity have been of particular interest. In this manuscript, we introduce a rhodium‐catalyzed direct selenium annulation by using stable and tractable elemental selenium. A series of benzamides as well as acrylamides were successfully coupled with selenium under mild reaction conditions, and the obtained isoselenazolones could be pivotal synthetic precursors for several organoselenium compounds. Based on the designed control experiments and X‐ray absorption spectroscopy measurements, we propose an unprecedented selenation mechanism involving a highly electrophilic Se(IV) species as the reactive selenium donor. The reaction mechanism was further verified by a computational study. A Rh(III)‐catalyzed direct selenium annulation by using stable and tractable elemental selenium is developed. 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subjects	annulation benzoisoselenazolone Catalysis Cyclodextrins C−H functionalization rhodium catalysis Selenium
title	Synthesis of Benzoisoselenazolones via Rh(III)‐Catalyzed Direct Annulative Selenation by Using Elemental Selenium
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