Fluorescence based oxygen sensor systems
First Claim
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1. A composition for sensing oxygen or an oxygen-related analyte in a medium comprising:
- a) a solid polymeric matrix which is permeable to oxygen, and b) an indicator covalently bonded to said matrix, wherein said indicator is a luminescent platinum group metal polyaromatic chelate complex capable of having its luminescence quenched by oxygen, said polyaromatic complex comprising three ligands, at least one of which is a bidentate diphenylphenanthroline, said polyaromatic complex being substantially homogeneously distributed throughout the polymeric matrix, said polyaromatic complex being covalently bonded to the matrix through one or more linker arms, wherein each of said one or more linker arms is attached to a phenyl group of the diphenylphenanthroline ligand and to the polymeric matrix.
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Abstract
Sensing elements, sensor systems and methods for determining the concentration of oxygen and oxygen-related analytes in a medium are provided. The sensing element comprises a solid polymeric matrix material that is permeable to oxygen or an oxygen related analyte and an indicator that is covalently bonded to the solid polymeric matrix material. The indicator is a luminescent platinum group metal polyaromatic chelate complex capable of having its luminescence quenched by the presence of oxygen. The polyaromatic complex comprises three ligands, at least one of which is a bidentate diphenylphenanthroline. The polyaromatic complex is distributed substantially homogenously throughout the matrix material and is covalently bonded to the matrix material via a linker arm. The linker arm is attached to a phenyl group of a diphenylphenanthroline ligand and to the backbone of the polymeric matrix material. The sensor systems comprise the present sensing element, an excitation assembly, a detector assembly, and a processor assembly.
77 Citations
21 Claims
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1. A composition for sensing oxygen or an oxygen-related analyte in a medium comprising:
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a) a solid polymeric matrix which is permeable to oxygen, and b) an indicator covalently bonded to said matrix, wherein said indicator is a luminescent platinum group metal polyaromatic chelate complex capable of having its luminescence quenched by oxygen, said polyaromatic complex comprising three ligands, at least one of which is a bidentate diphenylphenanthroline, said polyaromatic complex being substantially homogeneously distributed throughout the polymeric matrix, said polyaromatic complex being covalently bonded to the matrix through one or more linker arms, wherein each of said one or more linker arms is attached to a phenyl group of the diphenylphenanthroline ligand and to the polymeric matrix. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 15, 16, 17, 18, 19)
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3. The composition of claim 1 wherein emission from the complex in said matrix is characterized by one or more fluorescence lifetimes τ
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o above a lowest lifetime τ
oL=1 μ
sec in the absence of oxygen, such that the Stern Volmer constant KSV is greater than 0.006 mm−
1 and substantially uniform over the range of oxygen partial pressures of 40-180 mm Hg.
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o above a lowest lifetime τ
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4. The composition of claim 1 wherein said polymeric matrix is a silicone-based polymer, and said linker arm is attached to the matrix by a siloxane or silane linkage.
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5. The composition of claim 4 wherein said silicone based polymer is derived from precursors having the following formula:
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where each of x and y is independently an integer in the range of 1 to about 500 and R is independently selected from the group consisting of H, alkyl, a substituted alkyl, and a phenyl.
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6. The composition of claim 4 wherein the silicone based polymer is derived from a precursor having the following formula:
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where the sum of m and n is in the range of 100-500, and R is independently selected from the group consisting of alkyl, a substituted alkyl, and a phenyl.
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7. The composition of claim 1 wherein the complex is a ruthenium (II) tris[diphenylphenanthroline] complex.
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8. The composition of claim 1 wherein the complex has one of the following structures
where M is Ru2+, Os2+; - Ir3+, or Rh3+;
A is a linker arm comprising a group selected from the group consisting of a covalent bond, O, C(O)O, an optionally substituted methylene group, an optionally substituted carbon chain comprising 2-20 carbon atoms, and combinations thereof, wherein said carbon chain optionally comprises one or more of the following moieties or combinations thereof;
an oxygen atom, a nitrogen atom, a sulfur atom, a silicon atom, a heterocyclic group, and an aryl group;
k and l are independently 0, 1, or 2; and
m is 1 or 2.
- Ir3+, or Rh3+;
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9. A sensing element for measuring the concentration of oxygen or an oxygen-related analyte in a medium, comprising:
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(a) the sensing composition of claim 1; and
(b) a substrate for bringing said sensing composition into contact with the medium, wherein said substrate is made of a material that conducts visible light to and from the sensing composition.
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10. The sensing element of claim 9 wherein the substrate is an optical fiber.
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11. The sensing element of claim 9 wherein the substrate is a disposable flow-through cassette, and said sensing composition is disposed on a carrier disk which is incorporated into the flow-through cassete.
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12. The sensing element of claim 9 wherein said oxygen-related analyte is glucose and said sensing element comprises glucose oxidase.
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15. A sensor system for determining the concentration of oxygen or an oxygen-related analyte in a medium comprising:
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a) the sensing element of claim 9;
b) an excitation assembly which provides the excitation signal to said sensing element;
c) a detector assembly which detects an emitted signal provided by said sensing element; and
d) a processor assembly which analyzes the emitted signal in determining the concentration of said analyte in said medium, wherein said sensing element is optically linked to said excitation assembly and said detector assembly, and wherein said detector assembly is in communication with said processor assembly.
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16. The sensor system of claim 15 wherein the excitation signal is produced by a light source selected from the group consisting of light emitting diodes, including a GaN light emitting diode, laser diodes, frequency doubled laser diodes, and solid state light sources and wherein the excitation assembly provides a sine wave modulated excitation signal to the sensing composition.
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17. The sensor system of claim 16 wherein the sensor system is a phase modulation sensor system and is configured to provide an operating condition such that [(kq[O2])2+ω
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2]τ
o2>
>
1+2kqτ
o[O2] and the slope of the relationship between the concentration dependent parameter and analyte concentration is independent of τ
o variability for all analyte concentrations within the operating range of 40-180 mm Hg and for all lifetimes τ
o greater than τ
oL=1 μ
sec, and optionally wherein the sensor system is configured to operate at one or more modulation frequencies not to exceed 1 MHz.
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2]τ
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18. The sensor system of claim 16 wherein the detector assembly is configured to perform a function selected from the group consisting of
(1) sample the modulated excitation signal and a modulated signal emitted by the sensing element, (2) alternately sample the modulated excitation signal and a modulated emitted signal with a single photodetector selected from the group consisting of a photodiode, an avalanche photodiode and a photomultiplier tube, (3) electronically amplify and bandpass filter intensity modulated electrical output signals from the photodetector, and (4) amplify and digitally sample the intensity modulated electrical signal used to modulate the intensity of the light source to correct for fluctuations in the excitation signal amplitude. -
19. The sensor system of claim 16 wherein the processor assembly is adapted to use reference signals to determine the extent of the phase shift between the modulated excitation signal and the modulated emission signal, and optionally further
wherein the processor assembly in determining the phase shift is adapted and configured to implement a digital least squares algorithm or to implement a Fourier vector analysis.
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13. A method for making a composition for sensing oxygen or an oxygen-related analyte in a medium, said method comprising the following steps:
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(a) mixing a luminescent platinum group metal polyaromatic chelate complex capable of having its luminescence quenched by oxygen with one or more precursors of a polymeric matrix that is permeable to oxygen, said complex having the following general formula - View Dependent Claims (14)
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20. A platinum group metal polyaromatic chelate complex having the following general formula
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21. A composition comprising
a bidentate diphenylphenanthroline substituted by one or more functionalized linker arms; -
said functionalized linker arm having the structure A-X, where A or X is comprised of one or more carbon-carbon double bonds or both A and X are comprised of one or more carbon-carbon double bonds.
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Specification
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- Resources
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Current Assignee3M Innovative Properties Company (3M Company)
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Original Assignee3M Innovative Properties Company (3M Company)
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InventorsRude, Michael J., Roberts, Ralph R., Bentsen, James G., Knudson, Orlin B., Alvarez, Daniel Jr.
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Primary Examiner(s)SNAY, JEFFREY R
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Application NumberUS09/935,183Publication NumberTime in Patent Office846 DaysField of Search422/82.07, 422/82.08, 422/82.11, 422/91, 436/172, 436/136, 436/138, 436/68US Class Current436/68CPC Class CodesG01N 2021/7786 FluorescenceG01N 21/6408 with measurement of decay t...G01N 21/7703 using reagent-clad optical ...G01N 31/225 for oxygen, e.g. including ...Y10T 436/207497 Molecular oxygenY10T 436/209163 Dissolved or trace oxygen o...
