IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0343284
(2006-01-30)
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등록번호 |
US-8349276
(2013-01-08)
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발명자
/ 주소 |
- Pamula, Vamsee K.
- Pollack, Michael G.
- Fair, Richard B.
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출원인 / 주소 |
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
81 인용 특허 :
184 |
초록
▼
Apparatuses and methods for manipulating droplets on a printed circuit board (PCB) are disclosed. Droplets are actuated upon a printed circuit board substrate surface by the application of electrical potentials to electrodes defined on the PCB. The use of soldermask as an electrode insulator for dro
Apparatuses and methods for manipulating droplets on a printed circuit board (PCB) are disclosed. Droplets are actuated upon a printed circuit board substrate surface by the application of electrical potentials to electrodes defined on the PCB. The use of soldermask as an electrode insulator for droplet manipulation as well techniques for adapting other traditional PCB layers and materials for droplet-based microfluidics are also disclosed.
대표청구항
▼
1. An apparatus for manipulating droplets, the apparatus comprising: (a) a printed circuit board substrate comprising a first side surface and a second side surface;(b) an array of electrodes disposed on the substrate first side surface;(c) a dielectric layer disposed on the substrate first side sur
1. An apparatus for manipulating droplets, the apparatus comprising: (a) a printed circuit board substrate comprising a first side surface and a second side surface;(b) an array of electrodes disposed on the substrate first side surface;(c) a dielectric layer disposed on the substrate first side surface and patterned to cover the electrodes; and(d) an electrode selector for dynamically creating a sequence of array electrode activation whereby a droplet disposed on the substrate first side surface is electrically manipulated. 2. The apparatus according to claim 1 wherein the printed circuit board substrate comprises a plurality of substrate apertures defined therein and extending from the substrate first side surface to the substrate second side surface and each electrode comprises an electrode aperture, wherein each electrode aperture is aligned with one of the plurality of substrate apertures to define a plurality of via holes through the apparatus. 3. The apparatus according to claim 2 wherein the via holes are filled with a dielectric substance. 4. The apparatus according to claim 2 wherein the via holes are filled with a resin. 5. The apparatus according to claim 4 wherein the resin is a conductive epoxy or an optically transparent epoxy. 6. The apparatus according to claim 1 wherein the substrate defines at least one droplet inlet port adjacent with at least one of the electrodes of the electrode array. 7. The apparatus according to claim 6 wherein the at least one droplet inlet port is in communication with a liquid flow source selected from the group consisting of a flexible tube, a syringe, a pipettor, an external fluidic pump, a glass capillary tube, an intra-venous line, and a microdialysis lumen. 8. The apparatus according to claim 6 wherein the substrate defines at least one droplet outlet port adjacent with at least one of the electrodes of the electrode array. 9. The apparatus according to claim 8 wherein the at least one droplet outlet port is in communication with a liquid flow source selected from the group consisting of a flexible tube, a syringe, a pipettor, an external fluidic pump, a glass capillary tube, an intra-venous line, and a microdialysis lumen. 10. The apparatus according to claim 1 wherein the dielectric substance is a soldermask material, spin-on material, dip-coatable material, brush or spray-coatable, vapor depositable, or sputtered material. 11. The apparatus according to claim 10 wherein the soldermask material is selected from the group consisting of liquid photoimageable soldermask (LPI) and dry film soldermask (DFSS). 12. The apparatus according to claim 1 further comprising an electronic component operatively connected to the printed circuit board substrate, the electronic component being selected from the group consisting of microcontrollers, relays, high voltage multiplexers, voltage converters, light emitting diodes (LEDs), photodiodes, photo-multiplier tubes (PMT), heating elements, thermistors, resistance temperature devices (RTDs), and electrochemical measurement electrodes. 13. An apparatus for manipulating droplets, the apparatus comprising: (a) a printed circuit board substrate comprising a first side surface and a second side surface;(b) an array of drive electrodes disposed on the substrate first side surface;(c) an array of one or more reference elements settable to a common reference potential disposed in at least substantially co-planar relation to the drive electrode array;(d) a dielectric substance layer disposed on the substrate first side surface and patterned to cover the drive electrodes; and(e) an electrode selector for dynamically creating a sequence of array electrode activation whereby a droplet disposed on the substrate first side surface is electrically manipulated. 14. The apparatus according to claim 13 wherein the printed circuit board substrate comprises a plurality of substrate apertures defined therein and extending from the substrate first side surface to the substrate second side surface and each drive electrode comprises an electrode aperture, wherein each drive electrode aperture is aligned with one of the plurality of substrate apertures to define a plurality of via holes through the apparatus. 15. The apparatus according to claim 14 wherein the via holes are filled with the dielectric substance. 16. The apparatus according to claim 14 wherein the via holes are filled with a resin. 17. The apparatus according to claim 16 wherein the resin is a conductive epoxy or an optically transparent epoxy. 18. The apparatus according to claim 13 wherein the substrate defines at least one droplet inlet port adjacent with at least one of the electrodes of the electrode array. 19. The apparatus according to claim 18 wherein the at least one droplet inlet port is in communication with a liquid flow source selected from the group consisting of a flexible tube, a syringe, a pipettor, an external fluidic pump, a glass capillary tube, an intra-venous line, and a microdialysis lumen. 20. The apparatus according to claim 18 wherein the substrate defines at least one droplet outlet port adjacent with at least one of the electrodes of the electrode array. 21. The apparatus according to claim 20 wherein the at least one droplet outlet port is in communication with a liquid flow source selected from the group consisting of a flexible tube, a syringe, a pipettor, an external fluidic pump, a glass capillary tube, an intra-venous line, and a microdialysis lumen. 22. The apparatus according to claim 13 wherein the array of reference elements comprises a grid of elongate structures. 23. The apparatus according to claim 22 wherein the height of the grid of elongate structures is at least equal to the height of the droplet disposed on the substrate first side surface. 24. The apparatus according to claim 13 wherein the dielectric substance is a soldermask material, spin-on material, dip-coatable material, brush or spray-coatable, vapor depositable, or sputtered material. 25. The apparatus according to claim 24 wherein the soldermask material is selected from the group consisting of liquid photoimageable soldermask (LPI) and dry film soldermask (DFSS). 26. The apparatus according to claim 13 further comprising an electronic component operatively connected to the printed circuit board substrate, the electronic component being selected from the group consisting of microcontrollers, relays, high voltage multiplexers, voltage converters, light emitting diodes (LEDs), photodiodes, photo-multiplier tubes (PMT), heating elements, thermistors, resistance temperature devices (RTDs), and electrochemical measurement electrodes. 27. An apparatus for manipulating droplets, the apparatus comprising: (a) a printed circuit board substrate comprising a first side surface and a second side surface;(b) an array of drive electrodes disposed on the substrate first side surface;(c) an elongate reference element substantially parallel to and spaced apart from the substrate first side surface by a distance to define a space between the reference element and the substrate first side surface, wherein the distance is sufficient to contain a droplet disposed in the space;(d) a dielectric substance layer disposed on the substrate first side surface and patterned to cover the drive electrodes; and(e) an electrode selector for dynamically creating a sequence of array electrode activation whereby a droplet disposed on the substrate first side surface is electrically manipulated. 28. The apparatus according to claim 27 wherein the printed circuit board substrate comprises a plurality of substrate apertures defined therein and extending from the substrate first side surface to the substrate second side surface and each drive electrode comprises an electrode aperture, wherein each drive electrode aperture is aligned with one of the plurality of substrate apertures to define a plurality of via holes through the apparatus. 29. The apparatus according to claim 28 wherein the via holes are filled with the dielectric substance. 30. The apparatus according to claim 28 wherein the via holes are filled with a resin. 31. The apparatus according to claim 30 wherein the resin is a conductive epoxy or an optically transparent epoxy. 32. The apparatus according to claim 27 wherein the substrate defines at least one droplet inlet port adjacent with at least one of the electrodes of the electrode array. 33. The apparatus according to claim 32 wherein the at least one droplet inlet port is in communication with a liquid flow source selected from the group consisting of a flexible tube, a syringe, a pipettor, an external fluidic pump, a glass capillary tube, an intra-venous line, and a microdialysis lumen. 34. The apparatus according to claim 32 wherein the substrate defines at least one droplet outlet port adjacent with at least one of the electrodes of the electrode array. 35. The apparatus according to claim 34 wherein the at least one droplet outlet port is in communication with a liquid flow source selected from the group consisting of a flexible tube, a syringe, a pipettor, an external fluidic pump, a glass capillary tube, an intra-venous line, and a microdialysis lumen. 36. The apparatus according to claim 27 wherein the elongate reference element is an array of one or more wires. 37. The apparatus according to claim 27 wherein the elongate reference element is a plate. 38. The apparatus according to claim 37 wherein the reference element plate comprises a plate surface facing the substrate surface, and the plate surface is hydrophobic. 39. The apparatus according to claim 27 wherein the dielectric substance is a soldermask material, spin-on material, dip-coatable material, brush or spray-coatable, vapor depositable, or sputtered material. 40. The apparatus according to claim 39 wherein the soldermask material is selected from the group consisting of liquid photoimageable soldermask (LPI) and dry film soldermask (DFSS). 41. The apparatus according to claim 27 further comprising an electronic component operatively connected to the printed circuit board substrate, the electronic component being selected from the group consisting of microcontrollers, relays, high voltage multiplexers, voltage converters, light emitting diodes (LEDs), photodiodes, photo-multiplier tubes (PMT), heating elements, thermistors, resistance temperature devices (RTDs), and electrochemical measurement electrodes. 42. An apparatus for manipulating droplets, the apparatus comprising: (a) a first printed circuit board substrate comprising a first side surface and a second side surface;(b) an array of drive electrodes disposed on the first printed circuit board substrate first side surface;(c) a dielectric substance layer disposed on the first printed circuit board substrate first side surface and patterned to cover the drive electrodes;(d) a second printed circuit board substrate comprising a first side surface and a second side surface, the second printed circuit board substrate being substantially parallel to and spaced apart from the first printed circuit board substrate by a distance to define a space between the second printed circuit board substrate second side surface and the first printed circuit board substrate first side surface, wherein the distance is sufficient to contain a droplet disposed in the space;(e) an array of drive electrodes and an array of one or more reference elements disposed on the second printed circuit board substrate second side surface; and(f) an electrode selector for dynamically creating a sequence of array electrode activation whereby a droplet disposed between the first printed circuit board substrate first side surface and the second printed circuit board substrate second side surface is electrically manipulated.
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