Insertion of CO2 and CS2 into Bi–N bonds enables catalyzed CH-activation and light-induced bismuthinidene transfer

Insertion of CO2 and CS2 into Bi–N bonds enables catalyzed CH-activation and light-induced bismuthinidene transfer

The uptake and release of small molecules continue to be challenging tasks of utmost importance in synthetic chemistry. The combination of such small molecule activation with subsequent transformations to generate unusual reactivity patterns opens up new prospects for this field of research. Here, w...

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Autoren: Oberdorf, Kai, Hanft, Anna, Xie, Xiulan, Bickelhaupt, F. Matthias, Poater, Jordi, Lichtenberg, Crispin
Format: Artikel
Sprache:Deutsch
Veröffentlicht: Philipps-Universität Marburg 2023
Schlagworte:
Chemie
Chemistry & allied sciences
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Zusammenfassung:The uptake and release of small molecules continue to be challenging tasks of utmost importance in synthetic chemistry. The combination of such small molecule activation with subsequent transformations to generate unusual reactivity patterns opens up new prospects for this field of research. Here, we report the reaction of CO2 and CS2 with cationic bismuth(III) amides. CO2-uptake gives isolable, but metastable compounds, which upon release of CO2 undergo CH activation. These transformations could be transferred to the catalytic regime, which formally corresponds to a CO2-catalyzed CH activation. The CS2-insertion products are thermally stable, but undergo a highly selective reductive elimination under photochemical conditions to give benzothiazolethiones. The low-valent inorganic product of this reaction, Bi(I)OTf, could be trapped, showcasing the first example of light-induced bismuthinidene transfer.
DOI:10.1039/D3SC01635H

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