Sensor apparatus and analytical method
First Claim
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1. Analytical apparatus for indicating the presence of an analyte component in a fluid mixture containing the analyte comprising:
- (i) a source radiant energy means adapted for providing selected wave length radiant energy suitable for directly exciting oxygen analyte molecules to an elevated energy state;
(ii) a polymeric selective dissolving means, said dissolving means constituting a waveguide;
(iii) detection means for measuring the radiant energy emitted from the analyte molecules and indicating the presence of the analyte present in the fluid mixture;
(iv) means for transmitting the source radiant energy from the source radiant energy means to the analyte molecules in the selective dissolving means; and
(v) means for transmitting the emitted radiant energy from the selective dissolving means to said detection means;
wherein said selective dissolving means is adapted for contacting the fluid mixture, for dissolving the selected analyte molecules from the fluid mixture, for providing the analyte molecules in the dissolved or solution phase in the selective dissolving means, for excluding undesired interfering components present in the fluid mixture, and for providing a controlled environment in which the analyte molecules are exposed to said source radiant energy to directly excite the dissolved or solution phase analyte molecules and raise the energy level of the analyte molecules to an excited energy state and a controlled environment in which the excited analyte molecules return to a lower energy level and emit radiant energy from the analyte molecules, and wherein said selective dissolving means is substantially transparent to the source radiant energy and to the emitted radiant energy, and is of a shape and material selected to be effective for collecting, guiding and directing emitted radiant energy.
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Abstract
This invention provides a fiber-optic sensor or analytical apparatus and associated method which utilizes the combination of (a) a solid, semi-solid or liquid sensor body which is capable of selectively dissolving the analyte compound to be detected and analyzed into the sensor body from the mixture or environment in which the compound is present and excluding undesired or interfering components, (b) a radiation source for directly radiating the analyte compound molecules to excite same to an elevated energy state, thereby causing the analyte compound itself to luminesce while dissolved in the sensor body, and (c) a radiation detector for detecting and measuring the light emitted from the excited analyte compound molecules when they return to a lower energy state. The selective dissolving sensor body provides a controlled environment in which both the source light directly excites the analyte molecules and the excited molecules emit light which is detected and measured. This invention thereby provides dual selectivity, first by selectively dissolving the analyte component into the sensor body and second by the direct selective/specific excitation of the analyte compound to cause it to specifically luminesce in a manner known to be characteristic of that compound. Improved sensitivity also is provided by this invention by the direct measurement relationship, i.e, the higher the concentration of the analyte compound, the greater the luminescent signal from the excited analyte compound.
24 Citations
21 Claims
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1. Analytical apparatus for indicating the presence of an analyte component in a fluid mixture containing the analyte comprising:
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(i) a source radiant energy means adapted for providing selected wave length radiant energy suitable for directly exciting oxygen analyte molecules to an elevated energy state; (ii) a polymeric selective dissolving means, said dissolving means constituting a waveguide; (iii) detection means for measuring the radiant energy emitted from the analyte molecules and indicating the presence of the analyte present in the fluid mixture; (iv) means for transmitting the source radiant energy from the source radiant energy means to the analyte molecules in the selective dissolving means; and (v) means for transmitting the emitted radiant energy from the selective dissolving means to said detection means; wherein said selective dissolving means is adapted for contacting the fluid mixture, for dissolving the selected analyte molecules from the fluid mixture, for providing the analyte molecules in the dissolved or solution phase in the selective dissolving means, for excluding undesired interfering components present in the fluid mixture, and for providing a controlled environment in which the analyte molecules are exposed to said source radiant energy to directly excite the dissolved or solution phase analyte molecules and raise the energy level of the analyte molecules to an excited energy state and a controlled environment in which the excited analyte molecules return to a lower energy level and emit radiant energy from the analyte molecules, and wherein said selective dissolving means is substantially transparent to the source radiant energy and to the emitted radiant energy, and is of a shape and material selected to be effective for collecting, guiding and directing emitted radiant energy. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. Analytical apparatus for indicating the presence of an analyte component in a fluid mixture containing the analyte comprising:
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(i) a source radiant energy means adapted for providing selected wave length radiant energy suitable for directly exciting oxygen analyte molecules to an elevated energy state; (ii) a polymeric selective dissolving means said dissolving means constituting a waveguide; (iii) detection means for measuring the radiant energy emitted from the analyte molecules and indicating the presence of the analyte present in the fluid mixture; (iv) means for transmitting the source radiant energy from the source radiant energy means to the analyte molecules in the selective dissolving means; and (v) means for transmitting the emitted radiant energy from the selective dissolving means to said detection means; wherein said selective dissolving means is adapted for contacting the fluid mixture, for dissolving the selected analyte molecules from the fluid mixture, for providing the analyte molecules in the dissolved or solution phase in the selective dissolving means, for excluding undesired interfering components present in the fluid mixture, and for providing a controlled environment in which the analyte molecules are exposed to said source radiant energy to directly excite the dissolved or solution phase analyte molecules and raise the energy level of the analyte molecules to an excited energy state and a controlled environment in which the excited analyte molecules return to a lower energy level and emit radiant energy from the analyte molecules, and wherein said selective dissolving means is substantially transparent to the source radiant energy and to the emitted radiant energy, and is of a shape and material selected to be effective for at least one of guiding and directing exciting radiant energy. - View Dependent Claims (19)
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20. A method for indicating the presence of an oxygen analyte component in a fluid mixture containing the analyte comprising:
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(a) selecting and contacting a polymeric selective dissolving means said dissolving means, constituting a waveguide, with the fluid mixture to dissolve the analyte molecules from the fluid mixture, to provide the analyte molecules in the dissolved or solution phase in the selective dissolving means, and to provide a controlled environment in which the analyte molecules are exposed to a source radiant energy to directly excite the analyte molecules and raise the energy level of the analyte molecules to an excited energy state and a controlled environment in which the excited analyte molecules return to a lower energy level and emit radiant energy from the analyte molecules, wherein said selective dissolving means is selected such that it is substantially transparent to the source (b) directing source radiant energy, which is suitable for directly exciting the analyte molecules to an elevated energy state, into the selective dissolving means to directly excite the dissolved or solution phase analyte molecules to an excited energy state; (c) directing the radiant energy emitted from the analyte molecules from the selective dissolving means to a detection means for measuring the emitted radiant energy; (d) measuring the emitted radiant energy; and (e) indicating the presence of the analyte. - View Dependent Claims (21)
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Specification
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Current AssigneeAmos J. Gottlieb
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Original AssigneeAmos J. Gottlieb
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InventorsGottlieb, Amos J.
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Primary Examiner(s)Snay, Jeffrey R.
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Application NumberUS08/074,964Time in Patent Office865 DaysField of Search422/82.05, 422/82.06, 422/82.07, 422/82.08, 422/82.09, 422/91, 422/82, 436/122, 436/140, 436/68, 436/136, 436/138, 436/167, 436/168, 436/172, 436/175, 436/178, 128/634US Class Current436/68CPC Class CodesA61B 5/1459 invasive, e.g. introduced i...G01N 2021/0385 Diffusing membrane; Semiper...G01N 2021/6434 OptrodesG01N 2021/6484 Optical fibresG01N 2021/772 Tip coated light guideG01N 2021/773 Porous polymer jacket; Poly...G01N 2021/7786 FluorescenceG01N 21/6486 Measuring fluorescence of b...G01N 21/7703 using reagent-clad optical ...Y10T 436/186 Sulfur dioxideY10T 436/209163 Dissolved or trace oxygen o...Y10T 436/212 AromaticY10T 436/25125 Digestion or removing inter...Y10T 436/255 including use of a solid so...
