Microfluidic systems
First Claim
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1. A microfluidic device for controllably transporting material among a plurality of intersecting microscale channels, the device comprising:
- a body structure;
a channel network disposed in the body structure, the channel network comprising a plurality of intersecting microscale channels, the plurality of intersecting microscale channels comprising n microscale channel intersections, and x channel termini which are unintersected by a microscale channel and which channel termini are located in or on the body structure of the device, wherein n is greater than or equal to x, provided that x is at least 3 and n is at least 4;
an electrokinetic material transport system comprising an electrical power supply electrically coupled to each of the at least 3 unintersected channel termini, wherein the system controls the power supply such that the power supply supplies a separate electrical potential simultaneously to at least three of the unintersected termini of the plurality of microscale channels, the electrical potential supplied at the unintersected channel termini controlling material transport at the at least 4 intersections, wherein said controlling material transport comprises flowing material into each of the at least 4 intersections through at least two channel segments, or out of each of the at least 4 intersections through at least 2 channel segments, wherein the material is flowed simultaneously through the at least two channel segments.
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Abstract
The present invention generally provides microfluidic devices and systems that utilize electrokinetic material transport systems to selectively control and direct the transport of materials through and among complex arrangements of integrated, interconnected microscale channels disposed within integrated body structures.
156 Citations
20 Claims
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1. A microfluidic device for controllably transporting material among a plurality of intersecting microscale channels, the device comprising:
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a body structure;
a channel network disposed in the body structure, the channel network comprising a plurality of intersecting microscale channels, the plurality of intersecting microscale channels comprising n microscale channel intersections, and x channel termini which are unintersected by a microscale channel and which channel termini are located in or on the body structure of the device, wherein n is greater than or equal to x, provided that x is at least 3 and n is at least 4;
an electrokinetic material transport system comprising an electrical power supply electrically coupled to each of the at least 3 unintersected channel termini, wherein the system controls the power supply such that the power supply supplies a separate electrical potential simultaneously to at least three of the unintersected termini of the plurality of microscale channels, the electrical potential supplied at the unintersected channel termini controlling material transport at the at least 4 intersections, wherein said controlling material transport comprises flowing material into each of the at least 4 intersections through at least two channel segments, or out of each of the at least 4 intersections through at least 2 channel segments, wherein the material is flowed simultaneously through the at least two channel segments. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
a first transverse microscale channel having first and second unintersected termini;
a second transverse microscale channel having first and second unintersected termini;
at least first and second connecting microscale channels, each of the first and second connecting channels having first and second ends, the first end of the first and second connecting channels terminating in and being in fluid communication with the first transverse channel at first and second intersections, and the second end of the first and second connecting channels terminating in and being in fluid communication with the second transverse channel at third and fourth intersections.
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14. The microfluidic device of claim 1, wherein the body structure comprises:
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a first substrate having a substantially planar upper surface;
at least a second substrate having a substantially planar lower surface; and
wherein the plurality of intersecting microscale channels are fabricated as plurality of interconnected grooves into at least one of the upper surface of the first substrate or the lower surface of the second substrate, such that when the upper surface of the first substrate and the lower surface of the second substrate are mated, the plurality of interconnected grooves forms the plurality of intersecting microscale channels.
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15. The microfluidic device of claim 1, wherein controlling material transport comprises flowing material into at least one of the at least 4 channel intersections using a flow profile selected from the group consisting of:
- a pinched flow profile, a gated flow profile, and a pull-back flow profile.
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16. The microfluidic device of claim 1, wherein controlling material transport comprises transporting material into at least one of the at least 4 intersections simultaneously through the at least two channel segments and out of the at least one intersection through a third channel segment.
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17. The microfluidic device of claim 1, wherein at least one of the at least two channel segments is parabolic.
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18. The microfluidic device of claim 1, wherein at least one of the at least two channel segments is tapered.
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19. The microfluidic device of claim 1, wherein the channel network comprises one or more parabolic channels.
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20. The microfluidic device of claim 1, wherein the channel network comprises one or more tapered channels.
Specification