Interfacial Domain Formation Enhances Electrochemical Synthesis
O Holloczki and R Macchieraldo and B Gleede and SR Waldvogel and B Kirchner, JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 10, 1192-1197 (2019).
DOI: 10.1021/acs.jpclett.9b00112
The electroorganic C,C coupling of phenols to other aryl components is controlled by the fluoroalcohol-alcohol mixture solvents. Classical molecular dynamics and static density functional theory reveal that both kinds of solvents interact with the substrates, influencing the electronic structure of a phenoxyl radical intermediate in a cooperative manner to achieve maximal efficiency and selectivity. Simulations of the electrolyte-electrode interface showed that the substrates adsorb on the diamond surface in such a way that the repulsive fluorous-lipophilic interactions can be minimized and the attractive lipophilic-lipophilic interplay can be maximized, whereas the advantageous hydrogen bonding with the solvent can be retained. Accordingly, the solvent induces efficiency through the interaction of hydrogen bonding and the structure that controls the mesoscopic separation in these fluids. Since these findings are not specific to electrochemistry, by extending this principle to other heterogeneous processes, e.g., catalysis, their rate, yield, and selectivity can be potentially increased as well.
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