We
demonstrate the electrochemical quantification of individual
catechins (epicatechin, EC; epigallocatechin, EGC; epicatechingallate,
ECG; and epigallocatechingallate, EGCG) in a green tea infusion without
a separation process nor any adsorption complication. In the detection
of catechins, long-length carbon nanotube (CNT)–carboxymethylcellulose
(CMC) thin-film electrodes have attractive properties, such as well-defined
current peaks, high reproducibility from sample to sample, high repeatability,
and low background current. Cyclic voltammograms (CVs) for real green
tea, which is mainly composed of a mixture of the four catechins,
are produced by the sum of those catechins. A set of three specific
peaks in the CVs of the real green tea samples, as catechin-mixture
solutions, was used for quantification of the individual catechins.
The CVs of the real samples are similar to the CVs of intentionally
prepared mixture solutions with the catechin-component ratios determined
by high-performance liquid chromatography (HPLC). The values for the
real samples determined from the CVs show good agreement with those
obtained by HPLC. The novelty of the work is the demonstration of
the usefulness of the CNT–CMC electrode and the separationless
quantification of individual catechins in green tea for the first
time.