Toshiya Hiroi scite author profile

A method has been developed for photometric detection of cyclodextrins (CD) in liquid chromatography using iodine (I2) generated electrochemically in-situ. Iodide ion in the mobile phase was electrochemically oxidized to I2 which was subsequently reacted with I-, in an electrochemical flow cell, forming I3-. The absorbance of I3- was found to be greatly enhanced when CD were present in the mobile phase. The absorbance enhancement was caused by the change in the mole fraction of I3-, because of the inclusion reaction of I3- with CD. On the basis of this phenomenon, CD were detected by means of a photodiode-array UV-visible detector positioned downstream of the electrochemical flow cell. The signals were found to be linearly dependent on CD concentration. Because the formation constants of I3- with CD decrease in the order alpha-CD>beta-CD>gamma-CD, alpha-CD was most detectable by the method. Detection limits were 1.0 micromol L(-1) for alpha-CD, 65 micromol L(-1) for monoG1-beta-CD, 100 micromol L(-1) for beta-CD, and 200 micromol L(-1) for gamma-CD.

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Use of Disposable GRC Electrodes for the Detection of Phenol and Chlorophenols in Liquid Chromatography

Jin

Hiroi

Sato

et al. 2002

ANAL. SCI.

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Toshiya Hiroi

Rapid determination of bromide in seawater samples by capillary ion chromatography using monolithic silica columns modified with cetyltrimethylammonium ion

Microscale Electrochemiluminescence Analysis with an Ultrasonic Vibration Electrode

Photometric detection of cyclodextrins in liquid chromatography by using iodine generated electrochemically in-situ

Use of Disposable GRC Electrodes for the Detection of Phenol and Chlorophenols in Liquid Chromatography

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