Meso- and microfluidic continuous flow and stopped flow electroösmotic mixer
First Claim
1. A microfluidic channel comprising an electroosmotic mixing region therein which comprises:
- a) an interior surface;
b) first and second ends defining a flow axis, z, of said channel;
c) closures positioned at said first and second ends;
d) two or more electrodes;
i. that are on said interior surface;
ii. in which chargeable surfaces are between them on said interior surface;
iii. which are positioned at a common z axis position along said channel in said mixing region;
or such that two electrodes form said closures; and
e) means for applying a voltage across two or more of said electrodes to cause electroosmotic mixing.
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Abstract
An electroösmotic mixing device and a method for mixing one or more fluids for use in meso- or microfluidic device applications. The mixing device provides batch or continuous mixing of one or more fluids in meso- or microfluidic channels. An electric field is generated in the channel in substantial contact with chargeable surfaces therein. No alterations of the geometry of existing flow paths need be made, and the degree of mixing in the device can be controlled by the length of the electrodes, the flow rate past the electrodes, and the voltage applied to those electrodes. The degree of mixing is affected by choice of materials for the chargeable surface (in some cases by the selection of materials or coatings for channel walls) and the ionic strength of the fluids and the type and concentration of ions in the fluids. The ionic strength of fluids to be mixed is sufficiently low to allow electroosmotic flow. The method and device of this invention is preferably applied to fluids to having low ionic strength less than or equal to about 1 mM.
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Citations
12 Claims
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1. A microfluidic channel comprising an electroosmotic mixing region therein which comprises:
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a) an interior surface;
b) first and second ends defining a flow axis, z, of said channel;
c) closures positioned at said first and second ends;
d) two or more electrodes;
i. that are on said interior surface;
ii. in which chargeable surfaces are between them on said interior surface;
iii. which are positioned at a common z axis position along said channel in said mixing region;
or such that two electrodes form said closures; and
e) means for applying a voltage across two or more of said electrodes to cause electroosmotic mixing. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A microfluidic channel comprising an electroosmotic mixing region which comprises:
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a) an interior surface;
b) first and second ends defining a flow axis Z, of said channel, c) two or more electrodes comprising one or more gold or copper coatings on said interior surface, wherein said electrodes;
i. are positioned at a common z axis position along said channel;
ii. are separated from each other by a distance of about 10 μ
m to about 1 mm, have two or more chargeable surfaces between them, and have a cross-channel separation distance, d; and
d) means for applying a voltage across two or more of said electrodes to cause electroosmotic mixing; and
e) at least two channel closures positioned upstream and downstream of said electrodes;
wherein said chargeable surfaces are glass, are substantially perpendicular to the surfaces of said electrodes, and have a cross-channel separation distance w such that w/d is about 1 to about 10; and wherein said applied voltage is from 0 to about 1.5V.
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12. A microfluidic channel comprising an electroosmotic mixing region which comprises:
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a) an interior surface;
b) first and second ends defining a flow axis Z, of said channel;
c) two or more electrodes comprising one or more gold or copper coatings on said interior surface, and which;
i. form one or more closures that are positioned at said first and second ends of said mixing region;
ii. are separated from each other by a distance of about 10 μ
m to about 1 mm, have two or more chargeable surfaces between them, and have a cross-channel separation distance, d;
d) means for applying a voltage across two or more of said electrodes to cause electroosmotic mixing; and
e) at least two channel closures positioned upstream and downstream of said electrodes;
wherein said chargeable surfaces are glass, are substantially perpendicular to the surfaces of said electrodes, and have a cross-channel separation distance w such that w/d is 1 to about 10; and wherein said applied voltage is from 0 to about 1.5V.
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Specification