Methods for forming small-volume electrical contacts and material manipulations with fluidic microchannels
First Claim
1. A method of transporting material in a channel comprising the steps of:
- providing a microchannel device that includes a substrate having a channel formed therein, said channel having an inlet, said channel containing a first material that provides electroosmotic mobility;
bringing the inlet of said channel into fluid communication with a reservoir containing a second material;
providing first and second electrical contacts in said channel;
transporting said first material through said first channel by applying an electrical potential between said first and second contacts;
moving the first material by applying the electric potential between said first and second electrodes for a time sufficient to form a column of the second material in the channel; and
removing the electrical potential from the first and second electrodes when a leading edge of said column is adjacent to said first electrode.
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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 microehannel 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
6 Claims
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1. A method of transporting material in a channel comprising the steps of:
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providing a microchannel device that includes a substrate having a channel formed therein, said channel having an inlet, said channel containing a first material that provides electroosmotic mobility; bringing the inlet of said channel into fluid communication with a reservoir containing a second material; providing first and second electrical contacts in said channel; transporting said first material through said first channel by applying an electrical potential between said first and second contacts; moving the first material by applying the electric potential between said first and second electrodes for a time sufficient to form a column of the second material in the channel; and removing the electrical potential from the first and second electrodes when a leading edge of said column is adjacent to said first electrode. - View Dependent Claims (2, 3)
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4. A microfluidic vacuum pump comprising:
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a first channel, said first channel including a first end and a second end; a second channel, said second channel including a first end and a second end, wherein said first end of said second channel is in fluid communication with said first end of said first channel, and said second end of said second channel is in fluid communication with said second end of said first channel; an inlet port, disposed at said first end of said first and second channels; an exhaust port, disposed at said second end of said first and second channels; a first electrode disposed at said inlet port; a second electrode disposed along said first channel; a third electrode disposed along said first channel intermediate said first electrode and said second electrode; a fourth electrode disposed at said exhaust port; a fifth electrode disposed along said second channel; and a power source, said power source electrically connected to said first, second, third, fourth, and fifth electrodes, wherein said power source is adapted to controllably vary and sequence voltages at said first, second, third, fourth, and fifth electrodes. - View Dependent Claims (5)
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6. A method of controllably evacuating fluid from a chamber comprising the steps of:
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providing a microfluidic vacuum pump comprising; a first channel, said first channel including a first end and a second end; a second channel, said second channel including a first end and a second end, wherein said first end of said second channel is in fluid communication with said first end of said first channel, and said second end of said second channel is in fluid communication with said second end of said first channel; an inlet port, disposed at said first end of said first and second channels; an exhaust port, disposed at said second end of said first and second channels; a first electrode disposed at said inlet port; a second electrode disposed along said first channel; a third electrode disposed along said first channel intermediate said first electrode and said second electrode; a fourth electrode disposed at said exhaust port; a fifth electrode disposed along said second channel; and a power source, said power source electrically connected to said first, second, third, fourth, and fifth electrodes, wherein said power source is adapted to controllably vary and sequence voltages at said first, second, third, fourth, and fifth electrodes; applying a first electric potential across said fourth and fifth electrodes to prevent fluid from entering said second chamber; applying a second electric potential across said first and third electrodes to ensure fluid flow from said inlet port to said exhaust port; applying an initial electric potential to said second electrode higher than said electric potential at said fifth electrode; lowering said third electric potential at said second electrode equivalent to said electric potential at said fourth electrode to induce a slug of fluid to flow through said inlet port into said first chamber up to said third electrode, and into said second chamber up to said fifth electrode; and increasing said third electric potential at said second electrode to said initial electric potential to induce said slug of fluid to flow through said second chamber to said exhaust port.
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Specification