Dielectrophoretic systems without embedded electrodes
First Claim
1. An apparatus for dielectrophoretic separation, comprising:
- a fluid flow channel disposed on a substrate, wherein said fluid flow channel is provided with fluid inlet and outlet means in fluid communication with said fluid flow channel, and wherein said fluid flow channel has a plurality of insulating structures disposed therein;
electrodes in electric communication with each fluid inlet and outlet means, wherein the electrodes are positioned to generate a spatially non-uniform electric field across the plurality of insulating structures, and wherein the spatially non-uniform electric field exerts a dielectrophoretic force on a sample undergoing separation; and
power supply means connected to said electrodes to generate an electric field within said fluid flow channel,wherein electroosmotic flow of a fluid in said fluid flow channel is not suppressed.
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Abstract
Method and apparatus for dielectrophoretic separation of particles in a fluid based using array of insulating structures arranged in a fluid flow channel. By utilizing an array of insulating structures, a spatially inhomogeneous electric field is created without the use of the embedded electrodes conventionally employed for dielectrophoretic separations. Moreover, by using these insulating structures a steady applied electric field has been shown to provide for dielectrophoresis in contrast to the conventional use of an alternating electric field. In a uniform array of posts, dielectrophoretic effects have been produced flows having significant pressure-driven and electrokinetic transport. Above a threshold applied electric field, filaments of concentrated and rarefied particles appear in the flow as a result of dielectrophoresis. Above a higher threshold applied voltage, dielectrophoresis produces zones of highly concentrated and immobilized particles. These patterns are strongly influenced by the angle of the array of insulating structures with respect to the mean applied electric field and the shape of the insulating structures.
69 Citations
22 Claims
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1. An apparatus for dielectrophoretic separation, comprising:
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a fluid flow channel disposed on a substrate, wherein said fluid flow channel is provided with fluid inlet and outlet means in fluid communication with said fluid flow channel, and wherein said fluid flow channel has a plurality of insulating structures disposed therein; electrodes in electric communication with each fluid inlet and outlet means, wherein the electrodes are positioned to generate a spatially non-uniform electric field across the plurality of insulating structures, and wherein the spatially non-uniform electric field exerts a dielectrophoretic force on a sample undergoing separation; and power supply means connected to said electrodes to generate an electric field within said fluid flow channel, wherein electroosmotic flow of a fluid in said fluid flow channel is not suppressed. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. An apparatus for concentrating and spatially segregating particles, comprising:
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a fluid flow channel disposed on a substrate, wherein said fluid flow channel is provided with first and second ends, and fluid inlet and outlet means in fluid communication with the first and second ends, and wherein said flow channel has a plurality of insulating structures disposed therein; electrodes in electric communication with each fluid inlet and outlet means, wherein the electrodes are positioned to generate a spatially non-uniform electric field across the plurality of insulating structures, and wherein the spatially non-uniform electric field exerts a dielectrophoretic force on a sample undergoing separation; and power supply means connected to said electrodes to generate an electric field within said fluid flow channel, wherein the second end of said fluid flow channel is tapered to concentrate the electric field, and wherein electroosmotic flow of a fluid in said fluid flow channel is not suppressed. - View Dependent Claims (15, 16, 17, 18)
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19. An apparatus for dielectrophoretic separation, comprising:
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a fluid flow channel disposed on a substrate, wherein said fluid flow channel is provided with fluid inlet and outlet means in fluid communication with said fluid flow channel, and wherein said fluid flow channel has a plurality of insulating structures disposed therein; electrodes in electric communication with each fluid inlet and outlet means, wherein the electrodes are positioned to generate a spatially non-uniform electric field across the plurality of insulating structures, and wherein the spatially non-uniform electric field exerts a dielectrophoretic force on a sample undergoing separation; and power supply means connected to said electrodes to generate an electric field within said fluid flow channel, wherein the insulating structures comprise circular posts. - View Dependent Claims (20)
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21. An apparatus for dielectrophoretic separation, comprising:
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a fluid flow channel disposed on a substrate, wherein said fluid flow channel is provided with fluid inlet and outlet means in fluid communication with said fluid flow channel, and wherein said fluid flow channel has a plurality of insulating structures disposed therein; electrodes in electric communication with each fluid inlet and outlet means, wherein the electrodes are positioned to generate a spatially non-uniform electric field across the plurality of insulating structures, and wherein the spatially non-uniform electric field exerts a dielectrophoretic force on a sample undergoing separation; and power supply means connected to said electrodes to generate an electric field within said fluid flow channel, wherein the insulating structures comprise square posts having sides that are parallel to the fluid flow channel. - View Dependent Claims (22)
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Specification