Methods for forming small-volume electrical contacts and material manipulations with fluidic microchannels
First Claim
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1. A method for pumping a material through a channel comprising the steps of:
- providing a microchannel device that includes a substrate having first and second channels disposed therein, said first and second channels being in fluid communication at a channel intersection and containing a first fluidic material;
providing a first membranous material in the first channel;
providing a third channel that is in fluid communication with the first and second channels at the channel intersection;
providing a second membranous material in the third channel;
inducing a hydraulic pressure in the second channel by applying an electrical potential between the first and third channel; and
providing electroosmotic flow in the first membranous material that is greater than electroosmotic flow in the second membranous material.
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Abstract
A microfabricated device employing a bridging membrane and methods for electrokinetic transport of a liquid phase biological or chemical material using the same are described. The bridging membrane is deployed in or adjacent to a microchannel and permits either ionic current flow or the transport of gas species, while inhibiting the bulk flow of material. The use of bridging membranes in accordance with this invention is applicable to a variety of processes, including electrokinetically induced pressure flow in a region of a microchannel that is not influenced by an electric field, sample concentration enhancement and injection, as well as improving the analysis of materials where it is desired to eliminate electrophoretic bias. Other applications of the bridging membranes according to this invention include the separation of species from a sample material, valving of fluids in a microchannel network, mixing of different materials in a microchannel, and the pumping of fluids.
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Citations
22 Claims
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1. A method for pumping a material through a channel comprising the steps of:
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providing a microchannel device that includes a substrate having first and second channels disposed therein, said first and second channels being in fluid communication at a channel intersection and containing a first fluidic material; providing a first membranous material in the first channel; providing a third channel that is in fluid communication with the first and second channels at the channel intersection; providing a second membranous material in the third channel; inducing a hydraulic pressure in the second channel by applying an electrical potential between the first and third channel; and providing electroosmotic flow in the first membranous material that is greater than electroosmotic flow in the second membranous material.
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2. A device for the manipulation of liquid phase materials comprising:
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a substrate; first, second, and third channels formed on said substrate; said first, second, and third channels being in fluid communication at a channel intersection; a first membranous material disposed in the first channel and a second membranous material disposed in the second channel; and a source of electrical potential operatively connected to the first and second channels for inducing transport of a material in the third channel; wherein the first and second membranous materials are selected such that electroosmotic flow in the first membranous material is greater than electroosmotic flow in the second membranous material. - View Dependent Claims (3, 4, 5, 6)
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7. A method for pumping a material through a channel comprising the steps of:
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providing a microchannel device that includes a substrate having first, second, and third channels disposed therein, said first and third channels being in fluid communication at a first channel intersection, said second and third channels being in fluid communication at a second channel intersection, and containing a first fluidic material; providing a first membranous material in the first channels, a second membranous material in the second channel, and a third membranous material in the third channel; inducing a hydraulic pressure in the third channel by applying an electrical potential between the first and second channels; and providing electroosmotic flow in the third membranous material that is greater than electroosmotic flow in the first membranous material. - View Dependent Claims (8, 9)
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10. A method for pumping a material through a channel comprising the steps of:
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providing a microchannel device that includes a substrate having first, second, and third channels disposed therein, said first and third channels being in fluid communication at a first channel intersection, said second and third channels being in fluid communication at a second channel intersection, and containing a first fluidic material; providing a first membranous material in the first channel and a second membranous material in the second channel; and inducing a hydraulic pressure in the third channel by applying an electrical potential between the first and second channels; and providing electroosmotic flow in the first membranous material that is greater than electroosmotic flow in the second membranous material. - View Dependent Claims (11, 12, 13, 14)
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15. A device for the manipulation of liquid phase materials comprising:
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a substrate; first, second, and third channels formed on said substrate; said first and third channels being in fluid communication at a first channel intersection; said second and third channels being in fluid communication at a second channel intersection; a first membranous material disposed in the first channels, a second membranous material disposed in the second channel, and a third membranous material is disposed in the third channel; a source of electrical potential operatively connected to the first and second channels for inducing transport of a material in the third channel; wherein the first and third membranous materials are selected to provide electroosmotic flow in the third membranous material that is greater than electroosmotic flow in the first membranous material. - View Dependent Claims (16, 17, 18, 19)
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20. A device for the manipulation of liquid phase materials comprising:
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a substrate; first, second, and third channels formed on said substrate; said first and third channels being in fluid communication at a first channel intersection; said second and third channels being in fluid communication at a second channel intersection; a first membranous material disposed in the first channel and a second membranous material disposed in the second channel; and a source of electrical potential operatively connected to the first and second channels for inducing transport of a material in the third channel; wherein the first and second membranous materials are selected to provide electroosmotic flow in the first membranous material that is greater than electroosmotic flow in the second membranous material. - View Dependent Claims (21, 22)
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Specification
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Current AssigneeUT-Battelle LLC
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Original AssigneeUT-Battelle LLC
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InventorsRamsey, J. Michael, Jacobson, Stephen C.
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Primary Examiner(s)NOGUEROLA, ALEXANDER STEPHAN
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Application NumberUS10/668,930Publication NumberTime in Patent Office1,519 DaysField of Search204450-455, 204600-605US Class Current204/450CPC Class CodesB01D 57/02 by electrophoresis treatmen...B01D 61/422 ElectrodialysisB01D 61/427 Electro-osmosisB01D 61/445 with bipolar membranes; Wat...B01L 2200/10 Integrating sample preparat...B01L 2300/0816 Cards, e.g. flat sample car...B01L 2400/0415 electrical forces, e.g. ele...B01L 2400/0418 electro-osmotic flow [EOF]B01L 2400/049 vacuumB01L 3/50273 characterised by the means ...B01L 3/502753 characterised by bulk separ...F04B 17/00 Pumps characterised by comb...F04B 19/006 Micropumps F04B43/043 and F...G01N 27/44704 Details; AccessoriesG01N 27/44791 Microapparatus sample conta...
