Use of 5,10‐Disubstituted Dibenzoazaborines and Dibenzophosphaborines as Cyclic Supports of Frustrated Lewis Pairs for the Capture of CO2

Use of 5,10‐Disubstituted Dibenzoazaborines and Dibenzophosphaborines as Cyclic Supports of Frustrated Lewis Pairs for the Capture of CO2

The reactivity of 5,10‐disubstituted dibenzoazaborines and dibenzophosphaborines towards carbon dioxide was studied at the DFT, M06‐2X/def2‐TZVP, computational level. The profile of this reaction comprises of three stationary points: the pre‐reactive complex and adduct minima and the transition stat...

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Bibliographic Details
Published in:Chemphyschem Vol. 23; no. 18; pp. e202200204 - n/a
Main Authors: Ferrer, Maxime, Alkorta, Ibon, Elguero, Jose, Oliva‐Enrich, Josep M.
Format: Journal Article
Language:English
Published: Weinheim Wiley Subscription Services, Inc 16-09-2022
John Wiley and Sons Inc
Subjects:
Adducts
Basicity
Boron
boron hybridization
Carbon dioxide
carbon dioxide capture
density functional calculations
dibenzoazaborines
frustrated Lewis pairs
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Summary:The reactivity of 5,10‐disubstituted dibenzoazaborines and dibenzophosphaborines towards carbon dioxide was studied at the DFT, M06‐2X/def2‐TZVP, computational level. The profile of this reaction comprises of three stationary points: the pre‐reactive complex and adduct minima and the transition state(TS) linking both minima. Initial results show that dibenzoazaborines derivatives are less suitable to form adducts with CO2 than dibenzophosphaborine systems. The influence of the basicity on the P atom and the acidity on the B center of the dibenzophosphaborine in the reaction with CO2 was also explored. Thus, an equation was developed relating the properties (acidity, basicity and boron hybridization) of the isolated dibenzophosphaborine derivatives with the adduct energy. We found that modulation of the boron acidity allows to obtain more stable adducts than the pre‐reactive complexes and isolated monomers. The reactivity of 5,10‐disubstituted dibenzoazaborines and dibenzophosphaborines towards carbon dioxide is studied at the DFT level. The profile of this reaction comprises of three stationary points: the pre‐reactive complex and adduct minima and the TS linking both minima. An equation is developed relating the properties (acidity, basicity and boron hybridization) of the isolated dibenzophosphaborine derivatives with the CO2 adduct energy.
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ISSN:1439-4235
1439-7641
1439-7641
DOI:10.1002/cphc.202200204