Fiber optic sensor for long-term analyte measurements in fluids
First Claim
1. A fiber optic chemical sensor for detecting a target analyte in a fluid sample comprising:
- at least one optical fiber;
an optical interrogation zone disposed at a distal end of said fiber, said interrogation zone comprising an interrogated sample solution comprising a target analyte and an initial quantity of indicator dye, said interrogation zone being optically coupled to and in optical communication with said fiber; and
a dye reservoir comprising excess indicator dye solution, said reservoir being in fluid contact with said interrogation zone so as to permit fluid transport of said excess dye between said reservoir and said interrogation zone sample solution, while said dye reservoir is optically isolated from said interrogation zone.
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Abstract
A robust fiber optic sensor and sensing method for reliable, long-term measurement of analytes is disclosed. The sensor comprises an optical interrogation region comprising an indicator dye confined at a distal end of an optical fiber and an analyte permeable membrane enclosing the interrogation region at the distal fiber end. In a preferred embodiment, a reservoir member is provided with excess dye for continuous replenishment of the interrogation region with dye over the lifetime of the sensor. In another preferred embodiment, the reservoir member comprises an indicator support for containment of excess dye. In one preferred embodiment, a ratiometric dye is used for monitoring optical signal-to-noise and signal drift caused by sensor aging. The sensor may be configured with a variety of alternative indicator dyes and membrane materials as a specific ion sensor for analyzing dissolved analytes such as gases, cations, and anions. The sensor may be configured for a wide dynamic detection range and sensitivity for specific analytes. In one embodiment, a CO2 is disclosed which has a reversible working dynamic detection range between 200 and 1000 ppm pCO2 and a sensitivity ±1 ppm. An integrated measurement system and measurement methods for remote sensing applications are also disclosed which comprise electro-optic and data acquisition modules coupled to a conventional satellite transmission system. The sensor and sensing methods of the present invention have utility in remote sensing of analytes for environmental, industrial, chemical, biochemical, and biological monitoring of gases and liquids.
157 Citations
14 Claims
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1. A fiber optic chemical sensor for detecting a target analyte in a fluid sample comprising:
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at least one optical fiber;
an optical interrogation zone disposed at a distal end of said fiber, said interrogation zone comprising an interrogated sample solution comprising a target analyte and an initial quantity of indicator dye, said interrogation zone being optically coupled to and in optical communication with said fiber; and
a dye reservoir comprising excess indicator dye solution, said reservoir being in fluid contact with said interrogation zone so as to permit fluid transport of said excess dye between said reservoir and said interrogation zone sample solution, while said dye reservoir is optically isolated from said interrogation zone. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
a fluid chamber formed by a sensor housing, said excess dye being confined in said chamber; and
a dye support material positioned within said fluid chamber, said excess dye being mobile and fluidly transportable with said support material.
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6. The sensor of claim 4 where said dye support material is selected from the group consisting of poly-N-vinylpyrrolidone, polytetrafluoroethylene, polyacrylamide, polyhydroxethylmethacrylate, celluloase nitrate, polysulfones, polycarbonates, polyurethanes, nylons and polyethylende glycols.
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7. The sensor of claim 1 further comprising an analyte permeable membrane covering a portion of said sensor surface, said membrane disposed between said sensor and said fluid sample, said membrane providing for transport of a target analyte in said sample to said optical interrogation zone, said membrane restricting transport of said indicator dye between said interrogation zone and said sample.
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8. The sensor of claim 7 wherein said membrane is selected from the group of gas permeable materials consisting of silicones, polytetrafluorethylene, cellulose nitrate, polyethylene, polyvinyl chloride, polyvinylidene chloride, polysulfones, polycarbonates, polyurethanes, polyhydroxymethlmethacrylate, nylons and polyethylene glycols.
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9. The sensor of claim 1 further comprising a light source.
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10. The sensor of claim 1 further comprising a light detector.
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11. A method of making a fiber optic sensor comprising:
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providing at least one optical fiber;
incorporating an optical interrogation zone at a distal end of said fiber, said interrogation zone comprising an interrogated sample solution comprising a target analyte and an initial quantity of indicator dye, said interrogation zone being optically coupled to and in optical communication with said fiber; and
forming a dye reservoir comprising excess indicator dye solution, said reservoir being in fluid contact with said interrogation zone so as to permit fluid transport of said excess dye between said reservoir and said interrogation zone sample solution, while said dye reservoir is optically isolated from said interrogation zone. - View Dependent Claims (12)
covering a portion of said sensor surface with and analyte permeable membrane, said membrane providing for transport of a target analyte in a sample fluid to said interrogation zone, said membrane restricting transport of said indicator dye between said interrogation zone and said sample fluid.
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13. A method for determining the concentration of a target analyte in a fluid sample comprising the steps of:
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providing at least one optical fiber comprising an optical interrogation zone at a distal end of said fiber, said interrogation zone comprising an interrogated sample solution comprising a target analyte and an initial quantity of indicator dye, said interrogation zone being optically coupled to and in optical communication with said fiber; and
a dye reservoir comprising excess indicator dye solution, said reservoir being in fluid contact with said interrogation zone so as to permit fluid transport of said excess dye between said reservoir and said interrogation zone sample solution, while said dye reservoir is optically isolated from said interrogation zone;
contacting said distal end of said fiber with said sample; and
determining the concentration of said analyte. - View Dependent Claims (14)
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Specification