Electrochemical cell
First Claim
1. A method for determining a concentration of a reduced or oxidized form of a redox species, the method comprising the steps of:
- a) providing an electrochemical cell comprising a first working electrode, a first counter electrode, a second working electrode and a second counter electrode;
b) selecting a spacing between the first working electrode and the first counter electrode such that reaction products from the first counter electrode arrive at the first working electrode;
c) selecting a spacing between the first working electrode and the second counter electrode such that a significant amount of reaction products from the second counter electrode do not arrive at the first working electrode;
d) selecting a spacing between the second working electrode and the second counter electrode such that a significant amount of reaction products from the second counter electrode do not arrive at the second working electrode;
e) applying an electric potential difference between the first working electrode and the first counter electrode;
f) applying an electric potential difference between the second working electrode and second counter electrode;
g) selecting a potential of the first working electrode such that a rate of electro-oxidation of a reduced form of a redox species or a rate of electro-reduction of an oxidized form of a redox species is diffusion controlled;
h) selecting a potential of the second working electrode such that a rate of electro-oxidation of the reduced form of a redox species or a rate of electro-reduction of an oxidized form of a redox species is diffusion controlled;
i) subtracting a current flowing between the second working electrode and the second counter electrode from a current flowing between the first working electrode and the first counter electrode, whereby a corrected current is obtained; and
j) obtaining from the corrected current a value indicative of the concentration of the reduced form of the redox species or the oxidized form of the redox species.
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Accused Products
Abstract
The present invention relates to electrochemical cells including a first working electrode 32, a first counter electrode 34, a second working electrode 36, and a second counter electrode 38, wherein the electrodes are spaced such that reaction products from the first counter electrode 34 arrive at the first working electrode 32, and reaction products from the first and second counter electrodes 34, 38 do not reach the second working electrode 36. Also provided is a method of using such electrochemical cells for determining the concentration of a reduced or oxidized form of a redox species with greater accuracy than can be obtained using an electrochemical cell having a single working and counter electrode.
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Citations
33 Claims
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1. A method for determining a concentration of a reduced or oxidized form of a redox species, the method comprising the steps of:
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a) providing an electrochemical cell comprising a first working electrode, a first counter electrode, a second working electrode and a second counter electrode;
b) selecting a spacing between the first working electrode and the first counter electrode such that reaction products from the first counter electrode arrive at the first working electrode;
c) selecting a spacing between the first working electrode and the second counter electrode such that a significant amount of reaction products from the second counter electrode do not arrive at the first working electrode;
d) selecting a spacing between the second working electrode and the second counter electrode such that a significant amount of reaction products from the second counter electrode do not arrive at the second working electrode;
e) applying an electric potential difference between the first working electrode and the first counter electrode;
f) applying an electric potential difference between the second working electrode and second counter electrode;
g) selecting a potential of the first working electrode such that a rate of electro-oxidation of a reduced form of a redox species or a rate of electro-reduction of an oxidized form of a redox species is diffusion controlled;
h) selecting a potential of the second working electrode such that a rate of electro-oxidation of the reduced form of a redox species or a rate of electro-reduction of an oxidized form of a redox species is diffusion controlled;
i) subtracting a current flowing between the second working electrode and the second counter electrode from a current flowing between the first working electrode and the first counter electrode, whereby a corrected current is obtained; and
j) obtaining from the corrected current a value indicative of the concentration of the reduced form of the redox species or the oxidized form of the redox species. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. An electrochemical cell comprising a first working electrode, a first counter electrode, a second working electrode and a second counter electrode, the first working electrode being spaced from the first counter electrode by less than about 500 μ
- m, the first working electrode being spaced from the second counter electrode by more than about 500 μ
m, and the second working electrode being spaced from the second counter electrode by more than about 500 μ
m. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23)
- m, the first working electrode being spaced from the second counter electrode by more than about 500 μ
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24. Apparatus for determining the concentration of a redox species in an electrochemical cell comprising:
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an electrochemical cell having a first working electrode, a first counter electrode, a second working electrode and a second counter electrode, characterized in that the first working electrode is spaced from the first counter electrode by less than 500 μ
m, the first working electrode is spaced from the second counter electrode by more than 500 μ
m, and the second working electrode is spaced from the second counter electrode by more than 500 μ
m;
an electrical circuit capable of applying an electric potential difference between the first working electrode and the first counter electrode; and
an electrical circuit capable of applying an electric potential difference between the second working electrode and the second counter electrode.
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26. An electrochemical cell comprising a first working electrode, a first counter electrode, and a second working electrode, the first working electrode being spaced from the first counter electrode by less than about 500 μ
- m, and the second working electrode being spaced from the first counter electrode by more than about 500 μ
m.
- m, and the second working electrode being spaced from the first counter electrode by more than about 500 μ
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27. A method for determining the concentration of a reduced or oxidized form of a redox species, the method comprising the steps of:
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a) providing an electrochemical cell comprising a first working electrode, a counter electrode, and a second working electrode;
b) selecting a spacing between the first working electrode and the counter electrode such that reaction products from the counter electrode arrive at the first working electrode;
c) providing a redox species, wherein at least a useful fraction of the redox species initially present in a solution above the second working electrode has been reduced or oxidized at the second working electrode;
d) applying an electric potential difference between the first working electrode and the counter electrode;
e) selecting a potential of the first working electrode such that the rate of electro-oxidation of the reduced form or electro-reduction of the oxidized form of the species is diffusion controlled;
f) determining a current flowing between the first working electrode and the counter electrode; and
g) obtaining from the current a value indicative of a concentration of a reduced form of the redox species or a concentration of an oxidized form of the redox species. - View Dependent Claims (25, 28, 29)
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30. A method for determining a concentration of a reduced or oxidized form of a redox species, the method comprising the steps of:
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a) providing an electrochemical cell comprising a first working electrode, a second working electrode, and a counter electrode;
b) selecting a spacing between the first working electrode and the counter electrode such that reaction products from the counter electrode arrive at the first working electrode;
c) selecting a spacing between the second working electrode and the counter electrode such that a significant amount of reaction products from the counter electrode do not arrive at the second working electrode;
d) applying an electric potential difference between the second working electrode and the counter electrode whereby the second working electrode is substantially charged and whereby surface group reactions are substantially completed;
e) interrupting a circuit between the second working electrode and the counter electrode before a significant amount of the redox species is reacted at the second working electrode;
f) applying an electric potential difference between the first working electrode and the counter electrode;
g) selecting a potential of the first working electrode such that a rate of electro-oxidation of the reduced form of the redox species or a rate of electro-reduction of the oxidized form of the redox species is diffusion controlled;
h) determining a current flowing between the first working electrode and the counter electrode; and
i) obtaining from the current a value indicative of a concentration of the reduced form of the redox species or the oxidized form of the redox species.
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31. A method for determining a concentration of a reduced or oxidized form of a redox species, the method comprising the steps of:
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a) providing an electrochemical cell comprising a first working electrode, a second working electrode, and a counter electrode;
b) selecting a spacing between the first working electrode and the counter electrode such that reaction products from the counter electrode arrive at the first working electrode;
c) selecting a spacing between the second working electrode and the counter electrode such that a significant amount of reaction products from the counter electrode do not arrive at the second working electrode;
d) applying an electric potential difference between the second working electrode and the counter electrode and between the first working electrode and the counter electrode, whereby the second working electrode and first working electrode are substantially charged and whereby surface group reactions are substantially completed;
e) interrupting a circuit between the second working electrode and the counter electrode before a significant amount of the species is reacted at the second working electrode;
f) applying an electric potential difference between the first working electrode and the counter electrode;
g) selecting a potential of the first working electrode such that a rate of electro-oxidation of the reduced form of the redox species or a rate of electro-reduction of the oxidized form of the redox species is diffusion controlled;
h) determining a current flowing between the first working electrode and the counter electrode; and
i) obtaining from the current a value indicative of a concentration of the reduced form of the redox species or the oxidized form of the redox species.
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32. Apparatus for determining a concentration of a redox species in an electrochemical cell comprising:
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an electrochemical cell having a first working electrode, a first counter electrode, a second working electrode and a second counter electrode, characterized in that the first working electrode is spaced from the first counter electrode by less than 500 μ
m, the first working electrode is spaced from the second counter electrode by more than 500 μ
m, and the second working electrode is spaced from the second counter electrode by more than 500 μ
m;
means for applying an electric potential difference between the first working electrode and the first counter electrode; and
means for applying an electric potential difference between the second working electrode and the second counter electrode. - View Dependent Claims (33)
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Specification