Éder Henrique da Silva scite author profile

We have used a combination of multiple stage mass spectrometry (MSn) experiments, hydrogen/deuterium exchange experiments, and thermochemical data estimated by computational chemistry calculations at the B3LYP/6‐31+G(d,p) level of theory to revisit the gas‐phase fragmentation of protonated cocaine. The lone pair of nitrogen participates in major fragmentation routes of protonated cocaine, to generate cyclic iminium ions. The structure of product ion m/z 182, which has been previously proposed in the literature, was shown to be unstable; therefore, we have decided to revisit it. Here, we propose another ion structures for the product ion m/z 182 that is supported by thermochemical data. Compared with the formation of other product ions, the formation of the most intense product ions in the collision‐induced dissociation spectrum of protonated cocaine (m/z 182 and m/z 82) is the most energetically favorable. We propose the structure and formation of m/z 122 and m/z 91 for the first time. We suggest that m/z 91 originates from m/z 122 instead of m/z 119, as fully supported by MSn experiments. The results of this study could help to study and quantify cocaine metabolites.

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Tuning Heterocalixarenes to Improve Their Anion Recognition: A Computational Approach

Ortolan

Østrøm

Caramori

et al. 2018

J. Phys. Chem. A

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We have explored and analyzed the physical factors through which noncovalent interactions in anion sensing based on calixarene-type hosts can be tuned, using dispersion-corrected DFT and Kohn-Sham molecular orbital (KS-MO) theory in conjunction with a canonical energy decomposition analysis (EDA). We find that the host-guest interaction can be enhanced through the introduction of strongly electron-withdrawing groups at particular positions of the arene and triazine units in the host molecule as well as by coordination of a metal complex to the arene and triazine rings. Our analyses reveal that the enhanced anion affinity is caused by increasing the electrostatic potential in the heterocalixarene cavities. This insight can be employed to further tune and improve their selectivity for chloride ions.

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Bareversusprotected tetrairidium clusters by density functional theory

Piotrowski

Nagurniak

Silva

et al. 2018

Phys. Chem. Chem. Phys.

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