OPTIMUM SWITCHING OF A REVERSIBLE ELECTROCHEMICAL MIRROR DEVICE
First Claim
1. A method for optimizing the mirror uniformity and switching speed of a reversible electrochemical mirror of the type including a mirror electrode, a counter electrode, and an electrolyte disposed between and in electrical contact with the mirror and counter electrodes, wherein the electrolyte contains cations of an electrodepositable mirror metal, comprising the steps of:
- applying a first negative voltage to the mirror electrode relative to the counter electrode so that mirror metal is deposited onto the mirror electrode at a first rate; and
applying a second negative voltage more negative than the first negative voltage to the mirror electrode relative to the counter electrode so that additional mirror metal is deposited onto the mirror electrode at a second rate which is faster than the first rate, wherein the second negative voltage does not exceed a predetermined maximum drive voltage.
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Accused Products
Abstract
Reversible electrochemical mirror (REM) devices typically comprise a conductive oxide mirror electrode that is substantially transparent to radiation of some wavelengths, a counter electrode that may also be substantially transparent, and an electrolyte that contains ions of an electrodepositable metal. A voltage applied between the two electrodes causes electrodeposition of a mirror deposit on the mirror electrode and dissolution of the mirror deposit on the counter electrode, and these processes are reversed when the polarity of the applied voltage is changed. Such REM devices provide precise control over the reflection and transmission of radiation and can be used for a variety of applications, including smart windows and automatically adjusting automotive mirrors. According to the present invention, REM mirror uniformity is improved with minimal sacrifice in switching speed by utilizing a lower drive voltage when the mirror electrode sheet resistance is high, and a higher drive voltage when sufficient mirror metal is present to appreciably reduce the sheet resistance. Faster switching without damage to the electrode or decomposition of the electrolyte is provided by adjusting the applied voltage by the resistive loss in the electrolyte. Optimum results are provided by adjusting the drive voltages for the mirror metal plating and erasure processes based on real-time measurements of cell current, mirror electrode sheet resistance and temperature. Such sheet resistance measurements can also be used to monitor and control the reflectance of the device.
33 Citations
33 Claims
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1. A method for optimizing the mirror uniformity and switching speed of a reversible electrochemical mirror of the type including a mirror electrode, a counter electrode, and an electrolyte disposed between and in electrical contact with the mirror and counter electrodes, wherein the electrolyte contains cations of an electrodepositable mirror metal, comprising the steps of:
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applying a first negative voltage to the mirror electrode relative to the counter electrode so that mirror metal is deposited onto the mirror electrode at a first rate; and
applying a second negative voltage more negative than the first negative voltage to the mirror electrode relative to the counter electrode so that additional mirror metal is deposited onto the mirror electrode at a second rate which is faster than the first rate, wherein the second negative voltage does not exceed a predetermined maximum drive voltage. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for optimizing the mirror uniformity and switching speed of a reversible electrochemical mirror of the type including a mirror electrode, a counter electrode, and an electrolyte disposed between and in electrical contact with the mirror and counter electrodes, wherein the electrolyte contains cations of an electrodepositable mirror metal, comprising the steps of:
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applying a first positive voltage to the mirror electrode relative to the counter electrode so that mirror metal is dissolved from the mirror electrode at a first rate; and
applying a second positive voltage less positive than the first positive voltage to the mirror electrode relative to the counter electrode so that additional mirror metal is dissolved from the mirror electrode at a second rate which is slower than the first rate, wherein the first positive voltage does not exceed a predetermined maximum drive voltage. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
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25. A method for optimizing the mirror uniformity and switching speed of a reversible electrochemical mirror of the type including a mirror electrode, a counter electrode, and an electrolyte disposed between and in electrical contact with the mirror and counter electrodes, wherein the electrolyte contains cations of an electrodepositable mirror metal, comprising the steps of:
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applying a first negative voltage to the mirror electrode relative to the counter electrode so that mirror metal is deposited onto the mirror electrode at a first rate, wherein the first negative voltage is a substantially safe voltage with respect to damage to the mirror electrode and breakdown of the electrolyte when no mirror metal is present on the mirror electrode;
measuring the sheet resistance between two locations on the mirror electrode;
measuring the current flowing between the mirror electrode and the counter electrode;
determining the electrical resistance of the electrolyte between the mirror electrode and the counter electrode; and
applying a second negative voltage more negative than the first negative voltage to the mirror electrode relative to the counter electrode so that additional mirror metal is deposited onto the mirror electrode at a second rate which is faster than the first rate, wherein the magnitude of the second negative voltage is the smaller of;
a predetermined maximum drive voltage;
the sum of the safe voltage and the electrolyte voltage drop, the latter being equal to the multiplication product of the measured current and the measured electrolyte resistance; and
that which will cause the multiplication product of the measured sheet resistance and the measured current to be less than a predetermined maximum sheet IR drop. - View Dependent Claims (26)
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27. A method for optimizing the mirror uniformity and switching speed of a reversible electrochemical mirror of the type including a mirror electrode, a counter electrode, and an electrolyte disposed between and in electrical contact with the mirror and counter electrodes, wherein the electrolyte contains cations of an electrodepositable mirror metal, comprising the steps of:
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applying a first positive voltage to the mirror electrode relative to the counter electrode so that mirror metal is dissolved from the mirror electrode at a first rate, wherein the first positive voltage does not exceed a predetermined maximum drive voltage;
measuring the sheet resistance between two locations on the mirror electrode;
measuring the current flowing between the mirror electrode and the counter electrode;
determining the electrical resistance of the electrolyte between the mirror electrode and the counter electrode; and
applying a second positive voltage less positive than the first positive voltage to the mirror electrode relative to the counter electrode so that additional mirror metal is dissolved from the mirror electrode at a second rate which is slower than the first rate, wherein the magnitude of the second positive voltage is the smaller of;
the predetermined maximum drive voltage;
the sum of a safe voltage with respect to damage to the mirror electrode and breakdown of the electrolyte when no mirror metal is present on the mirror electrode plus the electrolyte voltage drop, the latter being equal to the multiplication product of the measured current and the measured electrolyte resistance; and
that which will cause the multiplication product of the measured sheet resistance and the measured current to be less than the predetermined maximum sheet IR drop. - View Dependent Claims (28)
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29. A reversible electrochemical mirror device of the type including a mirror electrode, a counter electrode, and an electrolyte disposed between and in electrical contact with the mirror and counter electrodes, wherein the electrolyte contains cations of an electrodepositable mirror metal, further comprising:
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first and second electrical contacts located on the mirror electrode, wherein the electrical resistance between said electrical contacts provides a measure of the amount of mirror metal on the mirror electrode. - View Dependent Claims (30, 31, 32, 33)
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Specification