Aufsatz
Oxidation Reactions of the N-Heterocyclic Stannylenes [𝘰-C₆H₄ (NSi𝑡BuMe₂)]₂Sn and [{Fe(η⁵ -C₅H₄ -NSi𝑡BuMe₂)₂}Sn] with Sulfur, Selenium, and Diphenyl Diselenide
Abstract
The N‐heterocyclic stannylenes [{Fe(η$^5$‐C$_5$H$_4$‐NSi𝑡 BuMe$_2$)$_2$}Sn] (1 ) and [𝘰‐C$_6$H$_4$(NSi𝑡 BuMe$_2$)]$_2$Sn (2 ) were prepared in one‐pot reactions from SnCl$_2$, LiN(SiMe$_3$)$_2$, and the corresponding diamine, viz. [Fe(η$^5$‐C$_5$H$_4$‐NHSi𝑡 BuMe$_2$)$_2$] and 𝘰‐C$_6$H$_4$(NSiH𝘵 BuMe$_2$)$_2$, respectively. Oxidative addition reactions of 1 and 2 with S$_8$ and Se$_8$, respectively, afforded the corresponding 1,3,2,4‐dithiadistannetanes ((1 S$_2$), (2 S$_2$)), and 1,3,2,4‐diselenadistannetanes [(1 Se)$_2$, (2 Se)$_2$]. The reactions of 1 and 2 with PhSeSePh respectively furnished 1 (SePh)$_2$ and 2 (SePh)$_2$. The crystal structures of 𝘰‐C$_6$H$_4$(NSiH𝑡 BuMe$_2$)$_2$, 1, 2, ( 1 S)$_2$, (2 S)$_2$, (1 Se)$_2$, (2 Se)$_2$, 1 (SePh)$_2$, and 2 (SePh)$_2$ were determined by single‐crystal X‐ray diffraction. Stannylene 2 shows a chain‐like aggregation in the solid state due to intermolecular Sn⋯arene interactions. A short intramolecular CH⋯Se contact compatible with a hydrogen bond was observed for (1 Se)$_2$.
Citation
In: Journal of Inorganic and General Chemistry : ZAAC Volume 646 / Issue 13 (2020-01-27) , S. 761-768 ; EISSN 1521-3749Citation
@article{doi:10.17170/kobra-202007171462,
author={Guthardt, Robin and Bachmann, Dennis and Bruhn, Clemens and Siemeling, Ulrich},
title={Oxidation Reactions of the N-Heterocyclic Stannylenes [𝘰-C₆H₄ (NSi𝑡BuMe₂)]₂Sn and [{Fe(η⁵ -C₅H₄ -NSi𝑡BuMe₂)₂}Sn] with Sulfur, Selenium, and Diphenyl Diselenide},
journal={Journal of Inorganic and General Chemistry : ZAAC},
year={2020}
}
0500 Oax 0501 Text $btxt$2rdacontent 0502 Computermedien $bc$2rdacarrier 1100 2020$n2020 1500 1/eng 2050 ##0##http://hdl.handle.net/123456789/11647 3000 Guthardt, Robin 3010 Bachmann, Dennis 3010 Bruhn, Clemens 3010 Siemeling, Ulrich 4000 Oxidation Reactions of the N-Heterocyclic Stannylenes [𝘰-C₆H₄ (NSi𝑡BuMe₂)]₂Sn and [{Fe(η⁵ -C₅H₄ -NSi𝑡BuMe₂)₂}Sn] with Sulfur, Selenium, and Diphenyl Diselenide / Guthardt, Robin 4030 4060 Online-Ressource 4085 ##0##=u http://nbn-resolving.de/http://hdl.handle.net/123456789/11647=x R 4204 \$dAufsatz 4170 5550 {{Carbene}} 5550 {{Homologe <Chemie>}} 5550 {{Röntgendiffraktometrie}} 7136 ##0##http://hdl.handle.net/123456789/11647
2020-07-20T08:11:37Z 2020-07-20T08:11:37Z 2020-01-27 doi:10.17170/kobra-202007171462 http://hdl.handle.net/123456789/11647 eng Namensnennung 4.0 International http://creativecommons.org/licenses/by/4.0/ Carbene homologues Metallocenes Oxidative addition Tin X-ray diffraction 540 Oxidation Reactions of the N-Heterocyclic Stannylenes [𝘰-C₆H₄ (NSi𝑡BuMe₂)]₂Sn and [{Fe(η⁵ -C₅H₄ -NSi𝑡BuMe₂)₂}Sn] with Sulfur, Selenium, and Diphenyl Diselenide Aufsatz The N‐heterocyclic stannylenes [{Fe(η$^5$‐C$_5$H$_4$‐NSi𝑡 BuMe$_2$)$_2$}Sn] (1 ) and [𝘰‐C$_6$H$_4$(NSi𝑡 BuMe$_2$)]$_2$Sn (2 ) were prepared in one‐pot reactions from SnCl$_2$, LiN(SiMe$_3$)$_2$, and the corresponding diamine, viz. [Fe(η$^5$‐C$_5$H$_4$‐NHSi𝑡 BuMe$_2$)$_2$] and 𝘰‐C$_6$H$_4$(NSiH𝘵 BuMe$_2$)$_2$, respectively. Oxidative addition reactions of 1 and 2 with S$_8$ and Se$_8$, respectively, afforded the corresponding 1,3,2,4‐dithiadistannetanes ((1 S$_2$), (2 S$_2$)), and 1,3,2,4‐diselenadistannetanes [(1 Se)$_2$, (2 Se)$_2$]. The reactions of 1 and 2 with PhSeSePh respectively furnished 1 (SePh)$_2$ and 2 (SePh)$_2$. The crystal structures of 𝘰‐C$_6$H$_4$(NSiH𝑡 BuMe$_2$)$_2$, 1, 2, ( 1 S)$_2$, (2 S)$_2$, (1 Se)$_2$, (2 Se)$_2$, 1 (SePh)$_2$, and 2 (SePh)$_2$ were determined by single‐crystal X‐ray diffraction. Stannylene 2 shows a chain‐like aggregation in the solid state due to intermolecular Sn⋯arene interactions. A short intramolecular CH⋯Se contact compatible with a hydrogen bond was observed for (1 Se)$_2$. open access Guthardt, Robin Bachmann, Dennis Bruhn, Clemens Siemeling, Ulrich doi:10.1002/zaac.201900335 Carbene Homologe <Chemie> Röntgendiffraktometrie publishedVersion EISSN 1521-3749 Issue 13 Journal of Inorganic and General Chemistry : ZAAC 761-768 Volume 646 false
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