Microfluidic systems
First Claim
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1. A microfluidic device, comprising:
- a body structure;
a plurality of integrated channels disposed in the body structure, the plurality of integrated channels comprising;
at least a first transverse channel;
at least first and second side channels disposed on a first side of the transverse channel, each of the first and second side channels having first and second ends, the first ends of the first and second side channels intersecting the transverse channel, and the second ends of the first and second side channels being in fluid communication with at least a first source of first material;
at least third and fourth side channels disposed on a second side of the transverse channel, each of the third and fourth channels having first and second ends, the first ends of the third and fourth channels being in fluid communication with the transverse channel, and the second ends of the third and fourth channels being in fluid communication with a waste reservoir; and
a material transport system for transporting a second material into the transverse channel, and for transporting portions of the second material into the third and fourth channels by directing a flow of first material from the first source, through the first and second channels into the transverse channel, the material transport system comprising one or more electrode disposed in electrical contact with the waste reservoir, or the first or second ends of the first, second, third or fourth microchannels, or the first source, wherein an electrical current path between the one or more electrode and an additional electrode through the first side channel provides substantially equal resistance to a resistance between the one or more electrode and the additional electrode through the second side channel.
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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. Channels are sized and positioned to provide equal resistance in different paths.
211 Citations
7 Claims
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1. A microfluidic device, comprising:
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a body structure;
a plurality of integrated channels disposed in the body structure, the plurality of integrated channels comprising;
at least a first transverse channel;
at least first and second side channels disposed on a first side of the transverse channel, each of the first and second side channels having first and second ends, the first ends of the first and second side channels intersecting the transverse channel, and the second ends of the first and second side channels being in fluid communication with at least a first source of first material;
at least third and fourth side channels disposed on a second side of the transverse channel, each of the third and fourth channels having first and second ends, the first ends of the third and fourth channels being in fluid communication with the transverse channel, and the second ends of the third and fourth channels being in fluid communication with a waste reservoir; and
a material transport system for transporting a second material into the transverse channel, and for transporting portions of the second material into the third and fourth channels by directing a flow of first material from the first source, through the first and second channels into the transverse channel, the material transport system comprising one or more electrode disposed in electrical contact with the waste reservoir, or the first or second ends of the first, second, third or fourth microchannels, or the first source, wherein an electrical current path between the one or more electrode and an additional electrode through the first side channel provides substantially equal resistance to a resistance between the one or more electrode and the additional electrode through the second side channel. - View Dependent Claims (2)
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3. A method of directing one or more sample materials serially introduced into a microscale channel, into a plurality of parallel channels fluidly connected to the microscale channel, the method comprising:
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providing a microfluidic device having at least a first microscale transverse channel, at least first and second microscale side channels intersecting a first side of the transverse channel, and at least third and fourth microscale side channels intersecting a second side of the transverse channel;
introducing the one or more sample materials serially into the first transverse channel; and
directing at least a portion of the one or more sample materials into the at least third and fourth channels by directing material into the transverse channel from the first and second channels by applying an electrical current between a first voltage source in electrical communication with an end of the first and second side channels and a second voltage source in electrical communication with an end of the third side channel, wherein an electrical current path between the first voltage source and the second voltage source via the third channel has substantially the same electrical resistance via the first side channel as via the second side channel. - View Dependent Claims (4, 5, 6, 7)
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Specification