Microsensor with integrated temperature control
First Claim
1. A semiconductor device for detecting an analyte in a sample, the semiconductor device including a sensor comprising:
- a sensing region formed over a semiconductor substrate, the sensing region including an electrochemical transducer that includes a working electrode and a counter electrode and is configured to detect an interaction between the analyte, the working electrode and the counter electrode when the sample is in the sensing region;
an integrated thermal energy source underlying the sensing region, the thermal energy source configured to produce thermal energy; and
an integrated temperature sensor within the sensing region, the integrated temperature sensor configured to contact the sample and sense temperature of the sample when the sample is in the sensing region, the integrated temperature sensor being above the thermal energy source.
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Accused Products
Abstract
Microsensors that include an integrated thermal energy source and an integrated temperature sensor are capable of providing localized heating and temperature control of individual sensing regions within the microsensor. Localized temperature control allows analyte detection to be carried out at the same temperatures or substantially the same temperatures at which the sensor is calibrated. By carrying out the sensing near the calibration temperature, more accurate results can be obtained. In addition, the temperature of the sensing region can be controlled so that chemical reactions involving the analyte in the sensing region occur near their peak reaction rate. Carrying out the sensing near the peak reaction rate improves the sensitivity of the sensor which is important as sensor dimensions decrease and the magnitude of the generated signals decreases.
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Citations
17 Claims
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1. A semiconductor device for detecting an analyte in a sample, the semiconductor device including a sensor comprising:
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a sensing region formed over a semiconductor substrate, the sensing region including an electrochemical transducer that includes a working electrode and a counter electrode and is configured to detect an interaction between the analyte, the working electrode and the counter electrode when the sample is in the sensing region; an integrated thermal energy source underlying the sensing region, the thermal energy source configured to produce thermal energy; and an integrated temperature sensor within the sensing region, the integrated temperature sensor configured to contact the sample and sense temperature of the sample when the sample is in the sensing region, the integrated temperature sensor being above the thermal energy source. - View Dependent Claims (2, 3, 4)
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5. A system for detecting an analyte in a sample, the system comprising:
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a semiconductor device component including a sensor for detecting the analyte in the sample, the sensor including; a sensing region formed over a semiconductor substrate, the sensing region including an electrochemical transducer that includes a working electrode and a counter electrode and is configured to detect an interaction between the analyte, the working electrode and the counter electrode when the sample is in the sensing region; an integrated thermal energy source underlying the sensing region, the thermal energy source configured to produce thermal energy; and an integrated temperature sensor within the sensing region, the integrated temperature sensor configured to contact the sample and sense temperature of the sample when the sample is in the sensing region, the integrated temperature sensor being above the thermal energy source; and a control component configured to receive a signal from the integrated temperature sensor and provide a signal to the thermal energy source in response to the signal received from the integrated temperature sensor. - View Dependent Claims (6, 7)
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8. A semiconductor device for detecting an analyte in a sample, the semiconductor device including a sensor comprising:
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a sensing region formed over a semiconductor substrate, the sensing region including an electrochemical transducer that includes a working electrode and a counter electrode and is configured to detect an interaction between the analyte, the working electrode and the counter electrode when the sample is in the sensing region; an integrated thermal energy source below the sensing region, the integrated thermal energy source configured to produce thermal energy and provide localized heating to the sensing region; and an integrated temperature sensor within the sensing region, the integrated temperature sensor configured to contact the sample and sense temperature of the sample when the sample is in the sensing region, the integrated temperature sensor being above the thermal energy source. - View Dependent Claims (9, 10)
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11. A semiconductor device for detecting an analyte in a sample, the semiconductor device including a sensor comprising:
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a sensing region formed over a semiconductor substrate, the sensing region including an electrochemical transducer that includes a working electrode and a counter electrode and is configured to detect an interaction between the analyte, working electrode and the counter electrode when the sample is in the sensing region; an integrated thermal energy source below the sensing region, the integrated thermal energy source configured to produce thermal energy and provide localized heating to the sensing region; and an integrated temperature sensor within the sensing region, the integrated temperature sensor configured to contact the sample and sense temperature of the sample when the sample is in the sensing region, the thermal energy source being below the temperature sensor. - View Dependent Claims (12)
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13. A semiconductor device for detecting an analyte in a sample, the semiconductor device including a sensor comprising:
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a sensing region formed over a semiconductor substrate, the sensing region including an electrochemical transducer that includes a working electrode and a counter electrode and is configured to detect an interaction between the analyte, the working electrode and the counter electrode when the sample is in the sensing region; an integrated thermal energy source adjacent the sensing region, the integrated thermal energy source configured to produce thermal energy and provide localized heating to the sensing region; and an integrated temperature sensor within the sensing region, the integrated temperature sensor configured to contact the sample and sense temperature of the sample when the sample is in the sensing region, wherein the electrochemical transducer is between the integrated thermal energy source and the integrated temperature sensor. - View Dependent Claims (14, 15, 16)
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17. A semiconductor device for detecting an analyte in a sample, the semiconductor device including a sensor comprising:
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a sensing region formed over a semiconductor substrate, the sensing region including an electrochemical transducer that includes a working electrode and a counter electrode and is configured to detect an interaction between the analyte, the working electrode and the counter electrode; an integrated thermal energy source underlying the sensing region, the thermal energy source configured to produce thermal energy; and one of the working electrode or the counter electrode serving as an integrated temperature sensor adjacent the sensing region, the integrated temperature sensor configured to sense temperature of the sensing region and the integrated temperature sensor being above the thermal energy source.
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Specification