Electropipettor and compensation means for electrophoretic bias
First Claim
1. A microfluidic device comprising:
- a body having a least first and second intersecting microfluidic channels disposed herein;
a pipettor for sampling a plurality of different fluids, the pipettor having a first capillary channel disposed therein, the first capillary channel having at least one microscale dimension and being fluidly connected at a first end to the first cross-sectional dimension less than or equal to 100 microns, the pipettor having a second end which is shaped and dimensioned to permit contacting of the second end with a plurality of sample materials located external to the device, whereby materials flowed through the capillary channel flow into the first channel.
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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.
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Citations
13 Claims
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1. A microfluidic device comprising:
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a body having a least first and second intersecting microfluidic channels disposed herein;
a pipettor for sampling a plurality of different fluids, the pipettor having a first capillary channel disposed therein, the first capillary channel having at least one microscale dimension and being fluidly connected at a first end to the first cross-sectional dimension less than or equal to 100 microns, the pipettor having a second end which is shaped and dimensioned to permit contacting of the second end with a plurality of sample materials located external to the device, whereby materials flowed through the capillary channel flow into the first channel. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of introducing a sample material into a microfluidic channel system, comprising:
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providing a capillary tube having a capillary channel having a first end in fluid communication with at least one microscale channel of the microfluidic channel system and a second end, the capillary channel having at least one cross-sectional dimension less than or equal to 100 microns and the second end thereof being shaped and dimensioned to permit contacting of the second end with at least one sample material;
contacting the second end of the capillary channel with at least one of one or more sample materials located external to the microfluidic channel system;
introducing the at least one sample material into the second end of the capillary channel; and
moving the at least one sample material from the capillary channel into the at least one microscale channel. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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Specification