Wavelength-coded bead for bioassay and signature recogniton
First Claim
1. An optically-coded microsphere comprising a plurality of semiconductor-based nanometer scale crystals, said semiconductor-based nanometer scale crystals emitting various fluorescent wavelengths depending on their sizes when exposed to light, said microsphere is decoded based on the reading from said fluorescent wavelengths.
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Abstract
The disclosure describes a method to utilize semiconductor-based nanocrystals to optically code microspheres, such as latex beads or magnetic beads. Semiconductor-based nanocrystals light up like LEDs, emitting a range of different colored lights depending on their sizes when exposed to light. When a microsphere formed by impregnating a mixture of nanometer scale crystals, infinite number of codes can be generated. The novelty of the technology is that microspheres can identify which reaction is taking place on the surface. Each latex bead can perform one test, thus each latex bead is a single analyte analyzer. By adding a mixture of latex beads, several thousand analytes can be tested simultaneously, easily, rapidly, and inexpensively. The bar-code microspheres can be applied to other applications, such as signature recognition and security identification.
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Citations
14 Claims
- 1. An optically-coded microsphere comprising a plurality of semiconductor-based nanometer scale crystals, said semiconductor-based nanometer scale crystals emitting various fluorescent wavelengths depending on their sizes when exposed to light, said microsphere is decoded based on the reading from said fluorescent wavelengths.
- 8. An optically-coded microsphere comprising a plurality of semiconductor-based nanometer scale crystals, said semiconductor-based nanometer scale crystals emitting various fluorescent wavelengths and intensities depending on their sizes and concentration when exposed to light, said microsphere is decoded based on the reading from said fluorescent wavelengths and intensities.
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