Fiber optic sensors, apparatus, and detection methods using controlled release polymers and reagent formulations held within a polymeric reaction matrix
First Claim
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1. A fiber optic sensor for performing optical determinations of a plurality of test fluids believed to contain an analyte of interest, said fiber optic sensor comprising:
- a optical fiber strand able to convey light energy of a determinable wavelength, said optical fiber strand having a proximal end, a distal end, and a strand length;
a discrete, porous polymeric reaction matrix immobilized at the distal end of said optical fiber strand, said analyte of interest to be detected being able to permeate and react within said polymeric reaction matrix; and
at least one preformed controlled release polymer carrier contained within said immobilized porous polymeric reaction matrix, each of said preformed controlled release polymer carrier comprising at least one controlled release polymer material and at least one reagent formation controllably releasable from said polymer material in mobile form for reaction with such analyte of interest as is present within said polymeric reaction matrix, the reaction between said analyte of interest and said released reagent formulation forming a diffusible and optically detectable product within said polymeric reaction matrix.
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Abstract
An improved fiber optic sensor, sensing apparatus, and methods for making optical detections are provided. The fiber optic sensor employs a fiber optic strand to convey light energy, an immobilized polymeric reaction matrix, and at least one controlled release polymeric carrier within said reaction matrix comprising a controlled release polymer material and a releasable reagent formulation able to react with the analyte of interest. The optic sensors and sensor construction have been demonstrated to be both functionally useful and long serving in duration.
341 Citations
13 Claims
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1. A fiber optic sensor for performing optical determinations of a plurality of test fluids believed to contain an analyte of interest, said fiber optic sensor comprising:
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a optical fiber strand able to convey light energy of a determinable wavelength, said optical fiber strand having a proximal end, a distal end, and a strand length; a discrete, porous polymeric reaction matrix immobilized at the distal end of said optical fiber strand, said analyte of interest to be detected being able to permeate and react within said polymeric reaction matrix; and at least one preformed controlled release polymer carrier contained within said immobilized porous polymeric reaction matrix, each of said preformed controlled release polymer carrier comprising at least one controlled release polymer material and at least one reagent formation controllably releasable from said polymer material in mobile form for reaction with such analyte of interest as is present within said polymeric reaction matrix, the reaction between said analyte of interest and said released reagent formulation forming a diffusible and optically detectable product within said polymeric reaction matrix. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A fiber optic sensing apparatus for performing optical determinations of a plurality of test fluids believed to contain an analyte of interest, said sensing apparatus comprising:
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a fiber optic sensor comprised of; a optical fiber strand able to convey light energy of a determinable wavelength, said optical fiber strand having a proximal end, a distal end, and a strand length, a discrete, porous polymeric reaction matrix immobilized at the distal end of said optical fiber strand, said analyte of interest to be detected being able to permeate and react within said polymeric reaction matrix, and at least one preformed, controlled release polymer carrier contained within said immobilized porous polymeric reaction matrix, each of said preformed controlled release polymer carrier comprising at least one controlled release polymer material and at least one reagent formulation controllably releasable from said polymer material in mobile form for reaction with such analyte of interest as is present within said polymeric reaction matrix, the reaction between said analyte of interest and said released reagent formulation forming a diffusible and optically detectable product within said polymeric reaction matrix; a source of light energy of determinable wavelength; means for conveying light energy from said source to said proximal end of said optical fiber strand; means for detecting light energy; and means for conveying light energy from said optical fiber strand to said detecting means. - View Dependent Claims (10, 11, 12)
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13. A method for performing optical detections of a plurality of test fluids believed to contain an analyte of interest, said method comprising the steps of:
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providing a fiber optic sensor comprised of; a optical fiber strand able to convey light energy of a determinable wavelength, said optical fiber strand having a proximal end, a distal end, and a strand length, a discrete, porous polymeric reaction matrix immobilized at the distal end of said optical fiber strand, said analyte of interest to be detected being able to permeate and react within said polymeric reaction matrix, and at least one preformed, controlled release polymer carrier contained within said immobilized porous polymeric reaction matrix, each of said preformed controlled release polymer carrier comprising at least one controlled release polymer material and at least one reagent formulation controllably releasable from said polymer material in mobile form for reaction with such analyte of interest as is present within said polymeric reaction matrix, the reaction between said analyte of interest and said release reagent formulation forming a diffusible and optically detectable product within said polymeric reaction matrix; introducing a test fluid to the distal end of said fiber optical sensor whereby at least a portion of such analyte of interest as is present in said fluid permeates said polymeric reaction matrix and reacts with such reagent formulation as has been controllably release into said polymeric reaction matrix to form a diffusible and optically detectable product; conveying light energy of determinable wavelength to said proximal end of said optical fiber strand; and detecting light energy conveyed by said optical fiber strand from said polymeric reaction matrix after formation of said diffusible and optically detectable reaction product by said release reagent formulation and the analyte of interest, said detected light energy being a measure of the analyte of interest in the test fluid.
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Specification