Patent ID: 8603322

Claim:
A method for quantifying a chemical substance contained in a sample solution, the method comprising steps of: (a) preparing a measurement system; wherein the measurement system comprises a pair of working electrodes, a counter electrode, and a gel-coated electrode; the pair of working electrodes is composed of a first working electrode and a second working electrode; the gel-coated electrode comprises an electrode surface, a stripping gel, and a protection gel; the electrode surface comprises silver; the stripping gel covers the electrode surface; the stripping gel contains a standard electrolyte and an ionic liquid; the stripping gel contains no water; the ionic liquid is composed of a cation and an anion; the standard electrolyte is composed of the cation and a halide ion; the protection gel covers the stripping gel; the protection gel contains a hydrophobic ion liquid, however, contains neither the standard electrolyte nor water; the gel-coated electrode, the first working electrode, the second working electrode, and the counter electrode are in contact with the sample solution; and the sample solution contains the chemical substance and an oxidation-reduction substance or contains the chemical substance modified with the oxidation-reduction substance; (b) applying an electric potential to the first working electrode with a potentiostat in a condition where the second working electrode is electrically connected to the gel-coated electrode, so as to generate reactions represented by the following chemical formulas (IX) to (XI), respectively, on the first working electrode, on the second working electrode, and on the electrode surface; the first working electrode: (wherein, n represents an integer, and m represents a positive integer) the second working electrode: (wherein, n represents an integer, and m represents a positive integer) the electrode surface Ag+X ⊖ →AgX↓+ e ⊖ (XI) (wherein, X represents iodine atom, bromine atom, or chlorine atom) wherein the AgX is deposited on the electrode surface; (c) applying an electric potential to the gel-coated electrode in a condition where no electric potentials are applied to the first working electrode and the second working electrode, and measuring an amount of a current which flows through the gel-coated electrode; and (d) calculating a concentration of the oxidation-reduction substance (reductant) so as to quantify the chemical substance on the basis of the calculated amount of the current.