Literature DB >> 33209089

Carbon-carbon bond formation in the reaction of hydrated carbon dioxide radical anions with 3-butyn-1-ol.

Andreas Herburger1, Milan Ončák1, Erik Barwa1, Christian van der Linde1, Martin K Beyer1.   

Abstract

Electrochemical activation of carbon dioxide in aqueous solution is a promising way to use carbon dioxide as a C1 building block. Mechanistic studies in the gas phase play an important role to understand the inherent chemical reactivity of the carbon dioxide radical anion. Here, the reactivity of CO2 •-(H2O)n with 3-butyn-1-ol is investigated by Fourier transform ion cyclotron (FT-ICR) mass spectrometry and quantum chemical calculations. Carbon-carbon bond formation takes places, but is associated with a barrier. Therefore, bond formation may require uptake of several butynol molecules. The water molecules slowly evaporate from the cluster due to the absorption of room temperature black-body radiation. When all water molecules are lost, butynol evaporation sets in. In this late stage of the reaction, side reactions occur including H• atom transfer and elimination of HOCO•.

Entities:  

Keywords:  carbon dioxide activation; carboxylation of olefins; ion-molecule reactions; nanocalorimetry; water cluster

Year:  2018        PMID: 33209089      PMCID: PMC7116384          DOI: 10.1016/j.ijms.2018.10.019

Source DB:  PubMed          Journal:  Int J Mass Spectrom        ISSN: 1387-3806            Impact factor:   1.986


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