TY - JOUR
T1 - Electrochemical properties of fluorinated boron-doped diamond electrodes
T2 - Via fluorine-containing plasma treatment
AU - Yamaguchi, Chizu
AU - Natsui, Keisuke
AU - Iizuka, Shota
AU - Tateyama, Yoshitaka
AU - Einaga, Yasuaki
N1 - Funding Information:
This work was supported in part by JSPS KAKENHI Grant Number JP15K05138 and MEXT, Japan under the ‘‘ESICB’’ and ‘‘Priority Issue (No. 5) on Post K computer’’ projects. The calculations were carried out on the supercomputers at NIMS, ISSP, and the University of Tokyo. This research also used computational resources of the K computer and the HPCI systems via the HPCI System Research Projects (Project IDs: hp170122, hp170174).
Publisher Copyright:
© the Owner Societies.
PY - 2019
Y1 - 2019
N2 - Since a boron-doped diamond (BDD) exhibits excellent electrode properties such as wide potential window, low back-ground current, and high physical and chemical durability, it has been studied as an electrode material for various electrochemical applications. The electrochemical behavior of BDD depends on the surface termination, which can be easily converted by chemical reactions. Fluorine termination has attracted interest because it exhibits unique surface properties such as high hydrophobicity and a low coefficient of friction, and the electrochemical properties also drastically change. However, so far, it has not been elucidated why fluorinated BDD exhibits specific electrochemical properties. In this article, fluorine-terminated BDD was fabricated by a fluorine-containing plasma treatment, and the electrochemical properties were systematically investigated. Together with experiments, we have calculated the interfacial structures and electronic states of hydrogenated, oxygenated, and fluorinated BDD electrodes. As a result, fluorinated BDD showed lower electrochemical reactivity than hydrogenated and oxygenated BDD. Especially, electron transfer between anionic compound and fluorinated BDD was significantly suppressed. Considered together with theoretical calculations, this reactivity could be attributed to the larger interfacial band bending in fluorinated BDD and electrostatic interactions between BDD and redox species.
AB - Since a boron-doped diamond (BDD) exhibits excellent electrode properties such as wide potential window, low back-ground current, and high physical and chemical durability, it has been studied as an electrode material for various electrochemical applications. The electrochemical behavior of BDD depends on the surface termination, which can be easily converted by chemical reactions. Fluorine termination has attracted interest because it exhibits unique surface properties such as high hydrophobicity and a low coefficient of friction, and the electrochemical properties also drastically change. However, so far, it has not been elucidated why fluorinated BDD exhibits specific electrochemical properties. In this article, fluorine-terminated BDD was fabricated by a fluorine-containing plasma treatment, and the electrochemical properties were systematically investigated. Together with experiments, we have calculated the interfacial structures and electronic states of hydrogenated, oxygenated, and fluorinated BDD electrodes. As a result, fluorinated BDD showed lower electrochemical reactivity than hydrogenated and oxygenated BDD. Especially, electron transfer between anionic compound and fluorinated BDD was significantly suppressed. Considered together with theoretical calculations, this reactivity could be attributed to the larger interfacial band bending in fluorinated BDD and electrostatic interactions between BDD and redox species.
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U2 - 10.1039/c8cp07402j
DO - 10.1039/c8cp07402j
M3 - Article
C2 - 31210178
AN - SCOPUS:85068424864
SN - 1463-9076
VL - 21
SP - 13788
EP - 13794
JO - Physical Chemistry Chemical Physics
JF - Physical Chemistry Chemical Physics
IS - 25
ER -