Electropipettor and compensation means for electrophoretic bias
First Claim
1. A sampling system comprising:
- an electropipettor for introducing subject materials into a microfluidic system, said electropipettor fluidly connected to said microfluidic system, said electropipettor comprising;
a first capillary channel having a first end for contacting at least one source of said subject materials and a second end terminating in said microfluidic system;
a second capillary channel having a first end terminating near said first end of said first capillary channel and a second end terminating in a source of first spacer material;
a third capillary channel having a first end terminating near said first end of said first capillary channel and a second end terminating in a source of second spacer material; and
a voltage source for applying voltages between said at least one subject material source and said microfluidic system, between said first spacer material source and said microfluidic system such that subject material from said one subject material source and spacer material from said first spacer material source are electrokinetically introduced into said electropipettor toward said microfluidic system, and between said second spacer material source and said microfluidic system such that second spacer material from said second spacer material source is electrokinetically introduced into said electropipettor toward said microfluidic system,a sample substrate, said sample substrate having a plurality of different samples immobilized thereon; and
a translation system for moving said electropipettor relative to said sample substrate.
0 Assignments
0 Petitions
Accused Products
Abstract
The present invention provides for techniques for transporting materials using electrokinetic forces through the channels of a microfluidic system. The subject materials are transported in regions of high ionic concentration, next to spacer material regions of high ionic concentration, which are separated by spacer material regions of low ionic concentration. Such arrangements allow the materials to remain localized for the transport transit time to avoid mixing of the materials. Using these techniques, an electropipettor which is compatible with the microfluidic system is created so that materials can be easily introduced into the microfluidic system. The present invention also compensates for electrophoretic bias as materials are transported through the channels of the microfluidic system by splitting a channel into portions with positive and negative surface charges and a third electrode between the two portions, or by diffusion of the electrophoresing materials after transport along a channel.
376 Citations
20 Claims
-
1. A sampling system comprising:
-
an electropipettor for introducing subject materials into a microfluidic system, said electropipettor fluidly connected to said microfluidic system, said electropipettor comprising; a first capillary channel having a first end for contacting at least one source of said subject materials and a second end terminating in said microfluidic system; a second capillary channel having a first end terminating near said first end of said first capillary channel and a second end terminating in a source of first spacer material; a third capillary channel having a first end terminating near said first end of said first capillary channel and a second end terminating in a source of second spacer material; and a voltage source for applying voltages between said at least one subject material source and said microfluidic system, between said first spacer material source and said microfluidic system such that subject material from said one subject material source and spacer material from said first spacer material source are electrokinetically introduced into said electropipettor toward said microfluidic system, and between said second spacer material source and said microfluidic system such that second spacer material from said second spacer material source is electrokinetically introduced into said electropipettor toward said microfluidic system, a sample substrate, said sample substrate having a plurality of different samples immobilized thereon; and a translation system for moving said electropipettor relative to said sample substrate. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. A sampling system comprising:
-
a microfluidic system comprising at least first and second intersecting channels disposed within a substrate; an electropipettor for introducing materials into at least one of the at least first and second intersecting channels in the microfluidic system, the electropipettor comprising; a body having at least a third capillary channel therein, the third capillary channel having a first end for contacting at least one source of sample materials and a second end fluidly connected to at least one of the first and second intersecting channels in the microfluidic system; and a voltage source for applying a voltage gradient between the one source of sample materials and a first electrode in the microfluidic system when the first end of the third channel contacts the source of sample materials such that material from the source of sample materials is electrokinetically introduced into the electropipettor toward the microfluidic system; a sample substrate having a plurality of different samples localized thereon; and a translation system for moving the electropipettor relative to the sample substrate. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
-
-
19. A method of sampling a plurality of different sample materials, comprising:
-
providing a microfluidic system comprising; at least first and second intersecting microscale channels disposed within a substrate; an electropipettor comprising a body having at least a third capillary channel therein, the third channel having a first end for contacting at least one source of sample materials and a second end fluidly connected to at least one of the at least first and second intersecting channels in the microfluidic system; and a voltage source for applying a voltage gradient between the source of sample materials and a first electrode in electrical contact with the microfluidic system when the first end of the third channel contacts the source of sample materials such that material from the source of sample materials is electrokinetically introduced into the electropipettor toward the microfluidic system; a sample matrix having a plurality of different sample materials separately localized thereon; a translation system for moving the electropipettor relative to the sample matrix; contacting the first end of the third channel to a source of first sample material on the sample matrix; applying a voltage gradient between the source of first sample material and the microfluidic system to draw a volume of first sample material into the third channel toward the microfluidic system; contacting the first end of the third channel to a source of second sample material; and applying a voltage gradient between the source of second sample material and the microfluidic system to draw a volume of second sample material into the third channel toward the microfluidic system. - View Dependent Claims (20)
-
Specification