Confined Lewis Pairs: Investigation of the X−→Si20 Interaction in Halogen‐Encapsulating Silafulleranes

A joint theoretical and experimental study on 32 endohedral silafullerane derivatives [X@Si20Y20]− (X=F‐I; Y=F‐I, H, Me, Et) and Th ${T_h }$ ‐[Cl@Si20H12Y8]− (Y=F‐I) is presented. First, we evaluated the structure‐determining template effect of Cl− in a systematic series of concave silapolyquinane m...

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Published in:Angewandte Chemie 2024-02, Vol.136 (6), p.n/a
Main Authors: Gasevic, Thomas, Bamberg, Marcel, Wicke, Julius, Bolte, Michael, Virovets, Alexander, Lerner, Hans‐Wolfram, Grimme, Stefan, Hansen, Andreas, Wagner, Matthias, Bursch, Markus
Format: Article
Language:English
Subjects:
35Cl NMR
Confined Lewis Pairs
Coupled-Cluster
DFT
Lewis acid
Magnetic resonance spectroscopy
NMR spectroscopy
Silafulleranes
Supramolecular compounds
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container_issue 6
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container_title Angewandte Chemie
container_volume 136
creator Gasevic, Thomas
Bamberg, Marcel
Wicke, Julius
Bolte, Michael
Virovets, Alexander
Lerner, Hans‐Wolfram
Grimme, Stefan
Hansen, Andreas
Wagner, Matthias
Bursch, Markus
description A joint theoretical and experimental study on 32 endohedral silafullerane derivatives [X@Si20Y20]− (X=F‐I; Y=F‐I, H, Me, Et) and Th ${T_h }$ ‐[Cl@Si20H12Y8]− (Y=F‐I) is presented. First, we evaluated the structure‐determining template effect of Cl− in a systematic series of concave silapolyquinane model systems. Second, we investigated the X−→Si20 interaction energy ( Eint ${E_{{\rm{int}}} }$ ) as a function of X− and Y and found the largest Eint ${E_{{\rm{int}}} }$ values for electron‐withdrawing exohedral substituents Y. Given that X− ions can be considered as Lewis bases and empty Si20Y20 clusters as Lewis acids, we classify our inseparable host–guest complexes [X@Si20Y20]− as “confined Lewis pairs”. Third, 35Cl NMR spectroscopy proved to be highly diagnostic for an experimental assessment of the Cl−→Si20 interaction as the paramagnetic shielding and, in turn, δ ${\delta }$ (35Cl) of the endohedral Cl− ion correlate inversely with Eint ${E_{{\rm{int}}} }$ . Finally, we disclose the synthesis of [PPN][Cl@Si20Y20] (Y=Me, Et, Br) and provide a thorough characterization of these new silafulleranes. A joint theoretical and experimental study on 32 endohedral silafulleranes is presented. Template effects of Cl− are investigated for the [X@Si20Y20]− complexes that are classified as “confined Lewis pairs”. The origins of the diagnostic 35Cl NMR chemical shifts are elucidated computationally. Finally, we disclose the synthesis of [PPN][Cl@Si20Y20] (Y=Me, Et, Br) including their thorough characterization.
doi_str_mv 10.1002/ange.202314238
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First, we evaluated the structure‐determining template effect of Cl− in a systematic series of concave silapolyquinane model systems. Second, we investigated the X−→Si20 interaction energy ( Eint ${E_{{\rm{int}}} }$ ) as a function of X− and Y and found the largest Eint ${E_{{\rm{int}}} }$ values for electron‐withdrawing exohedral substituents Y. Given that X− ions can be considered as Lewis bases and empty Si20Y20 clusters as Lewis acids, we classify our inseparable host–guest complexes [X@Si20Y20]− as “confined Lewis pairs”. Third, 35Cl NMR spectroscopy proved to be highly diagnostic for an experimental assessment of the Cl−→Si20 interaction as the paramagnetic shielding and, in turn, δ ${\delta }$ (35Cl) of the endohedral Cl− ion correlate inversely with Eint ${E_{{\rm{int}}} }$ . Finally, we disclose the synthesis of [PPN][Cl@Si20Y20] (Y=Me, Et, Br) and provide a thorough characterization of these new silafulleranes. A joint theoretical and experimental study on 32 endohedral silafulleranes is presented. Template effects of Cl− are investigated for the [X@Si20Y20]− complexes that are classified as “confined Lewis pairs”. The origins of the diagnostic 35Cl NMR chemical shifts are elucidated computationally. Finally, we disclose the synthesis of [PPN][Cl@Si20Y20] (Y=Me, Et, Br) including their thorough characterization.</description><identifier>ISSN: 0044-8249</identifier><identifier>EISSN: 1521-3757</identifier><identifier>DOI: 10.1002/ange.202314238</identifier><language>eng</language><publisher>Weinheim: Wiley Subscription Services, Inc</publisher><subject>35Cl NMR ; Confined Lewis Pairs ; Coupled-Cluster ; DFT ; Lewis acid ; Magnetic resonance spectroscopy ; NMR spectroscopy ; Silafulleranes ; Supramolecular compounds</subject><ispartof>Angewandte Chemie, 2024-02, Vol.136 (6), p.n/a</ispartof><rights>2023 The Authors. Angewandte Chemie published by Wiley-VCH GmbH</rights><rights>2023. 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Y=F‐I, H, Me, Et) and Th ${T_h }$ ‐[Cl@Si20H12Y8]− (Y=F‐I) is presented. First, we evaluated the structure‐determining template effect of Cl− in a systematic series of concave silapolyquinane model systems. Second, we investigated the X−→Si20 interaction energy ( Eint ${E_{{\rm{int}}} }$ ) as a function of X− and Y and found the largest Eint ${E_{{\rm{int}}} }$ values for electron‐withdrawing exohedral substituents Y. Given that X− ions can be considered as Lewis bases and empty Si20Y20 clusters as Lewis acids, we classify our inseparable host–guest complexes [X@Si20Y20]− as “confined Lewis pairs”. Third, 35Cl NMR spectroscopy proved to be highly diagnostic for an experimental assessment of the Cl−→Si20 interaction as the paramagnetic shielding and, in turn, δ ${\delta }$ (35Cl) of the endohedral Cl− ion correlate inversely with Eint ${E_{{\rm{int}}} }$ . Finally, we disclose the synthesis of [PPN][Cl@Si20Y20] (Y=Me, Et, Br) and provide a thorough characterization of these new silafulleranes. A joint theoretical and experimental study on 32 endohedral silafulleranes is presented. Template effects of Cl− are investigated for the [X@Si20Y20]− complexes that are classified as “confined Lewis pairs”. The origins of the diagnostic 35Cl NMR chemical shifts are elucidated computationally. 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subjects 35Cl NMR
Confined Lewis Pairs
Coupled-Cluster
DFT
Lewis acid
Magnetic resonance spectroscopy
NMR spectroscopy
Silafulleranes
Supramolecular compounds
title Confined Lewis Pairs: Investigation of the X−→Si20 Interaction in Halogen‐Encapsulating Silafulleranes
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