Bismuth as a Z-Type Ligand: an Unsupported Pt−Bi Donor-Acceptor Interaction and its Umpolung by Reaction with H2

Johannes Schwarzmann; Toni Eskelinen; Sascha Reith; Jacqueline Ramler; Antti J. Karttunen; Jordi Poater; Crispin Lichtenberg

doi:10.1002/anie.202410291

Bismuth as a Z-Type Ligand: an Unsupported Pt−Bi Donor-Acceptor Interaction and its Umpolung by Reaction with H₂

Johannes Schwarzmann, Toni Eskelinen, Sascha Reith, Jacqueline Ramler, Antti J. Karttunen^*, Jordi Poater^*, Crispin Lichtenberg^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

3 Citations (Scopus)

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Abstract

Establishing unprecedented types of bonding interactions is one of the fundamental challenges in synthetic chemistry, paving the way to new (electronic) structures, physicochemical properties, and reactivity. In this context, unsupported element-element interactions are particularly noteworthy since they offer pristine scientific information about the newly identified structural motif. Here we report the synthesis, isolation, and full characterization of the heterobimetallic Bi/Pt compound [Pt(PCy₃)₂(BiMe₂)(SbF₆)] (1), bearing the first unsupported transition metal→bismuth donor/acceptor interaction as its key structural motif. 1 is surprisingly robust, its electronic spectra are interpreted in a fully relativistic approach, and it reveals an unprecedented reactivity towards H₂.

Original language	English
Article number	e202410291
Number of pages	7
Journal	Angewandte Chemie - International Edition
Volume	63
Issue number	41
DOIs	https://doi.org/10.1002/anie.202410291
Publication status	Published - 7 Oct 2024
MoE publication type	A1 Journal article-refereed

Keywords

bismuth cations
bonding analysis
heterobimetallic compounds
Lewis acidity
relativistic effects

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10.1002/anie.202410291Licence: CC BY

CHEM_Schwarzmann_et_al_Bismuth_as_a_Z‐Type_2024_Angew_Chem_Int_EdFinal published version, 4.45 MBLicence: CC BY

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title = "Bismuth as a Z-Type Ligand: an Unsupported Pt−Bi Donor-Acceptor Interaction and its Umpolung by Reaction with H2",

abstract = "Establishing unprecedented types of bonding interactions is one of the fundamental challenges in synthetic chemistry, paving the way to new (electronic) structures, physicochemical properties, and reactivity. In this context, unsupported element-element interactions are particularly noteworthy since they offer pristine scientific information about the newly identified structural motif. Here we report the synthesis, isolation, and full characterization of the heterobimetallic Bi/Pt compound [Pt(PCy3)2(BiMe2)(SbF6)] (1), bearing the first unsupported transition metal→bismuth donor/acceptor interaction as its key structural motif. 1 is surprisingly robust, its electronic spectra are interpreted in a fully relativistic approach, and it reveals an unprecedented reactivity towards H2.",

keywords = "bismuth cations, bonding analysis, heterobimetallic compounds, Lewis acidity, relativistic effects",

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AU - Schwarzmann, Johannes

AU - Eskelinen, Toni

AU - Reith, Sascha

AU - Ramler, Jacqueline

AU - Karttunen, Antti J.

AU - Poater, Jordi

AU - Lichtenberg, Crispin

PY - 2024/10/7

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N2 - Establishing unprecedented types of bonding interactions is one of the fundamental challenges in synthetic chemistry, paving the way to new (electronic) structures, physicochemical properties, and reactivity. In this context, unsupported element-element interactions are particularly noteworthy since they offer pristine scientific information about the newly identified structural motif. Here we report the synthesis, isolation, and full characterization of the heterobimetallic Bi/Pt compound [Pt(PCy3)2(BiMe2)(SbF6)] (1), bearing the first unsupported transition metal→bismuth donor/acceptor interaction as its key structural motif. 1 is surprisingly robust, its electronic spectra are interpreted in a fully relativistic approach, and it reveals an unprecedented reactivity towards H2.

AB - Establishing unprecedented types of bonding interactions is one of the fundamental challenges in synthetic chemistry, paving the way to new (electronic) structures, physicochemical properties, and reactivity. In this context, unsupported element-element interactions are particularly noteworthy since they offer pristine scientific information about the newly identified structural motif. Here we report the synthesis, isolation, and full characterization of the heterobimetallic Bi/Pt compound [Pt(PCy3)2(BiMe2)(SbF6)] (1), bearing the first unsupported transition metal→bismuth donor/acceptor interaction as its key structural motif. 1 is surprisingly robust, its electronic spectra are interpreted in a fully relativistic approach, and it reveals an unprecedented reactivity towards H2.

KW - bismuth cations

KW - bonding analysis

KW - heterobimetallic compounds

KW - Lewis acidity

KW - relativistic effects

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Bismuth as a Z-Type Ligand: an Unsupported Pt−Bi Donor-Acceptor Interaction and its Umpolung by Reaction with H₂

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LUMICOIN: Optical and photophysical properties of luminescent coinage-metal compounds

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Bismuth as a Z-Type Ligand: an Unsupported Pt−Bi Donor-Acceptor Interaction and its Umpolung by Reaction with H2

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Keywords

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LUMICOIN: Optical and photophysical properties of luminescent coinage-metal compounds

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Bismuth as a Z-Type Ligand: an Unsupported Pt−Bi Donor-Acceptor Interaction and its Umpolung by Reaction with H₂