Claims
- 1. A transmissive optical bio-disc, comprising:
a substantially circular substrate having a center and an outer edge; and a thin semi-reflective layer associated with the substrate.
- 2. The transmissive optical bio-disc according to claim 1 wherein the thin semi-reflective layer is selected from the group comprising metals, semi-conductors, and dielectric layers.
- 3. The transmissive optical bio-disc according to claim 2 wherein said metals is selected from the group comprising gold, aluminum, silver, nickel, and reflective metal alloys.
- 4. The transmissive optical bio-disc according to claim 2 wherein said semi-conductors is selected from the group comprising silicon and germanium.
- 5. The transmissive optical bio-disc according to claim 2 wherein said dielectric layers is a multi-layer dielectric film.
- 6. The transmissive optical bio-disc according to claim 5 wherein said multi-layer dielectric film is selected from the group comprising silicon dioxide, zinc sulfide, and tantalum oxide.
- 7. The transmissive optical bio-disc of according to any of the claims 1, 2, 3, 4, 5, or 6 wherein said thin semi-reflective is between 20 to 300 Angstroms thick.
- 8. The transmissive optical bio-disc according to claim 1 wherein the substrate includes encoded information associated therewith, the encoded information being readable by an disc drive assembly to control rotation of the optical bio-disc.
- 9. The transmissive optical bio-disc of claim 1, further comprising:
a target zone disposed between the center and the outer edge; an active layer formed on the surface of said thin semi-reflective layer; and at least one capture agent that binds to said active layer such that the capture agent is immobilized on said active layer within the target zone to thereby form a capture zone.
- 10. The transmissive optical bio-disc of either claim 1 or 9 further comprising a cap portion.
- 11. The transmissive optical bio-disc of 10 wherein said cap portion is transparent.
- 12. The transmissive optical bio-disc of 11 wherein said cap portion having molded thereto one or more channels such that when the cap portion is attached to the substrate, fluidic channels are formed.
- 13. The transmissive optical bio-disc of 12 wherein said cap portion is attached to the substrate using an adhesive member.
- 14. The transmissive optical bio-disc of 12 wherein said cap portion is attached to the substrate by direct bonding of the cap and the substrate.
- 15. A transmissive optical bio-disc and drive system, the system comprising:
a transmissive optical bio-disc comprising:
a substantially circular substrate having a center and an outer edge; a thin semi-reflective layer disposed over the substrate; a cap portion integrally attached to the thin semi-reflective layer by an adhesive member, the adhesive member having one or more portions removed, thereby forming one or more channels defined there between; and one or more capture agents immobilized on the thin semi-reflective layer, the capture agents defining optical bio-discrete capture zones within the one or more channels; and a disc drive comprising:
a light source for directing light to said capture zones; a detector system for detecting light reflected from or transmitted through the optical bio-disc at the capture zones and providing a signal; and a processor for using the signal to count items in the sample bound to the capture agents.
- 16. A transmissive optical bio-disc and drive system, the system comprising:
a transmissive optical bio-disc comprising:
a substantially circular substrate having a center and an outer edge; a lens component layer disposed over the substrate; a transmissive operational features layer disposed over the lens component layer; a capture zone disposed over the transmissive operational features layer, wherein said capture zone contains capture agents; a final layer disposed over the capture zone; and a cover layer disposed over the final layer; and a disc drive comprising:
a light source for directing light to said transmissive optical bio-disc at said capture zones; a detector system for detecting light reflected from or transmitted through the transmissive optical bio-disc at the capture zone and providing a signal; and a processor for using the signal to count items in the capture zone bound to capture agents.
- 17. A transmissive optical bio-disc and drive system, the system comprising:
a transmissive optical bio-disc comprising:
a substantially circular substrate having a center and an outer edge; a lens component layer disposed over the substrate; a capture zone disposed over the lens component layer, wherein said capture zone contains capture agents; a transmissive operational features layer disposed over the capture zone; a final layer disposed over transmissive operational features layer; and a cover layer disposed over the final layer; and a disc drive comprising:
a light source for directing light to said transmissive optical bio-disc at said capture zone; a detector system for detecting light reflected from or transmitted through the transmissive optical bio-disc at the capture zone and providing a signal; and a processor for using the signal to count items in the capture zone bound to capture agents.
- 18. The system according to any of the claims 15, 16, or 17 wherein said detector system is comprised of a detector and optical components.
- 19. The system of claim 18 wherein said optical components direct light to said detector.
- 20. The system of either claim 16 or 17 wherein the final layer is reflective.
- 21. The system of either claims 16 or 17 wherein the final layer is transparent.
- 22. The system of either claim 16, or 17, wherein said detector system is located on the same side as the light source for detecting light reflected from the capture zones when said transmissive optical bio-disc has reflective final layer.
- 23. The system of either claim 16 or 17, wherein the detector system is located on the opposite side of the light source for detecting light transmitted through the capture zones of said transmissive optical bio-disc.
- 24. The system of either claim 11 or 12 wherein the transmissive operational features layer is selected from the group comprising reflective metals, semi-conductors, and dielectric layers.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] The present application claims the benefit of priority from U.S. Provisional Patent Application Serial No. 60/306,599 filed on Jul. 19, 2001, which is herein incorporated by reference in its entirety.
Provisional Applications (1)
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Number |
Date |
Country |
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60306599 |
Jul 2001 |
US |