Solid state fluorescence and absorption spectroscopy
First Claim
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1. A solid state standard for spectroscopic readers comprising;
- an excitation source;
a microplate to orient the solid state standard;
an optical glass probe, coated with a material with an energy state that can be excited by an external source and which is shaped to fit into said microplate;
filters for selecting excitation and emissions wavelengths; and
a detection means integral with said microplate which senses if the reader is operating within pre-determined limits.
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Abstract
Solid state devise for the calibration of microplate fluorescence and absorption readers and spectrometers is described. When present in a single moiety, the disclosed device can tell if the lamp photomultiplier tube and optical alignment of the microplate reader or spectrometer deviates from its true value. When present as graded calibration pieces, the disclosed device can be used to calibrate a fluorescence or absorption reader. Calibration pieces are shaped, polished and coated with color absorbing or fluorescent standard to fit in microplate holding trays or spectrometers which are commercially available. Solid state devices are stable and durable and very inert to manipulations and thus are more reliable and unfaltering than solutions for absorption and fluorescence microplate readers or spectrometers.
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Citations
30 Claims
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1. A solid state standard for spectroscopic readers comprising;
an excitation source;
a microplate to orient the solid state standard;
an optical glass probe, coated with a material with an energy state that can be excited by an external source and which is shaped to fit into said microplate;
filters for selecting excitation and emissions wavelengths; and
a detection means integral with said microplate which senses if the reader is operating within pre-determined limits. - View Dependent Claims (2, 3, 4, 5, 6, 17, 18, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30)
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7. A method of calibrating a spectroscopic reader with a solid state standard, comprising the steps of:
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shaping a probe to fit into a microplate;
coating said probe;
spectroscopic reader will yield a non-fluctuating reading of relative fluorescence units when revolving at a gain of the detection device which is consistent with the peak setting of-the instrument;
using a flourescent compound of known spectral point, generating a calibration curve of incrementally linear varying fluorescence coatings such that each point of the calibration curve represents one coated glass standard; and
generating a calibration curve to determine if the instrument is operating efficiently at a flourescent point. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A solid state standard consisting of glass coated with material which;
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differs in concentration from one another linearly in a standard curve;
has an optical density which can be read in an absorption microplate reader; and
can determine if the reader can read the concentration at standard curve points.
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14. A method for calibrating a spectrophotometer monochromator comprising the steps of;
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coating a cuvette with a material of a known absorbing wavelength;
placing said cuvette in the sample chamber;
scanning said monochromator from zero to its maximum absorbing optical density; and
reading the wavelength off said monochromator.
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15. A method of calibrating a spectroscopic reader with a solid state standard to determine the maximum excitation and emission wavelength of a flourescent coated glass cuvette, said method comprising the steps of:
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placing a flourescent coated glass cuvette with known maximum excitation and emission wavelengths into the chamber;
opening the excitation monochromator to bath the cuvette in white light;
adjusting the emission monochromator from red to violet until a peak is reached;
placing the calibration standard back in the sample chamber and setting the emissions monochromator to its peak value; and
scanning the excitation monochromator from red to violet until a maximum reading is determined for the excitation wavelength of the standard.
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16. A method of verifying the operational condition of a luminometer, said method consisting of the steps of:
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exposing the optical glass pellets of a flat bottomed microplate to direct sunlight; and
recording of a peak, in the luminescence reading of the luminomator microplate reader, followed by a decay to background luminescence.
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19. A method for coating glass for use in a solid state standard comprising the steps of:
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applying a primary layer of TiO2;
applying one or more layers of SiO2; and
applying a final layer of TiO2;
wherein each layer is baked at 250 degrees Centigrade between coatings.
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Specification
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Current AssigneeAndrew Hood, Henry Palladino
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Original AssigneeAndrew Hood, Henry Palladino
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InventorsPalladino, Henry, Hood, Andrew
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Application NumberUS10/079,264Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current356/243.1CPC Class CodesG01N 21/278 Constitution of standards
