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ID 117823
Author
Hashimoto, Rikuo Tokushima University
Matsumoto, Kenji Kobe University
Hotta, Hiroki Kobe University
Iiyama, Masamitsu Nomura Micro Science
Keywords
Track-etched membrane filter
Dual-electrode detection
Complete electrolysis
Collection efficiency
High-performance liquid chromatography–electrochemical detection
Phenolic compound
Content Type
Journal Article
Description
Electrochemical detection behavior of phenolic compounds in a series dual-electrode detector constructed from track-etched membrane electrodes (TEMEs) was investigated using microbore high-performance liquid chromatography. This detector featured complete electrolysis provided by the electrode structure, which consisted of cylindrical pores with a uniform diameter. The collection efficiency, which was defined as the ratio of peak areas observed at the first and second working electrodes, ranged from negative values up to 1.0. Because it reflected the electrochemical reaction's reversibility and the reaction products' stability, the substance-inherent collection efficiency varied over a much broader range of values than that obtained with conventional electrochemical detectors. The collection efficiencies of catechol and hydroquinone were up to 1.0. Resorcinol produced an anodic peak at both the first and second working electrodes despite a lower potential for polarization of the second electrode than the first electrode. In this case, the collection efficiency was negative. The results showed that the resulting product was oxidized in a low potential region. Catechin compounds, which have both catechol and resorcinol moieties, displayed the characteristics of both catechol and resorcinol simultaneously. Gallic acid, which produced an irreversible cyclic voltammogram, showed a quasi-reversible property produced by a relatively short transition time in the dual-electrode detector. The reported data will be valuable for peak identification and estimation of peak purities in complex chromatograms.
Journal Title
Journal of Electroanalytical Chemistry
ISSN
15726657
NCID
AA10836527
AA11531977
Publisher
Elsevier
Volume
928
Start Page
117039
Published Date
2022-12-05
Rights
© 2022. This manuscript version is made available under the CC-BY-NC-ND 4.0 license https://creativecommons.org/licenses/by-nc-nd/4.0/
EDB ID
DOI (Published Version)
URL ( Publisher's Version )
FullText File
language
eng
TextVersion
Author
departments
Technical Support Department
Science and Technology