Retaining microfluidic microcavity and other microfluidic structures
First Claim
1. A microfluidic device comprising a microchannel structure in which there are one or more inlet ports, one or more outlet ports, and one or more structural units wherein said structural unit comprises:
- (a) a retaining microcavity which is located between one of said one or more inlet ports and one of said one or more outlet ports;
(b) a mixing unit which is located upstream the retaining microcavity and downstream one of said inlet ports;
(c) two or more microconduits directly connected to the retaining microcavity and communicating with one of said inlet or outlet ports;
wherein one or more of said microconduits comprise anti-wicking means in association with the joint between the retaining microcavity and the microconduit and/or the distance (d1) from the retaining microcavity to an opening to ambient atmosphere and including a microconduit that lacks anti-wicking means and is directly attached to the retaining microcavity, is ≧
20 times the largest inner cross-sectional dimension of the microconduit at its joint to the retaining microcavity.
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Accused Products
Abstract
A microfluidic device that comprises several microchannel structures in which there are an inlet port, an outlet port and there between a structural unit comprising a fluidic function. The structural unit can be selected amongst units enabling a) retaining of nl-aliquots comprising constituents which has been defined by mixing of aliquots within the microfluidic device (unit A), b) mixing of aliquots of liquids (unit B), c) partition of larger aliquots of liquids into smaller aliquots of liquids and distributing the latter individually and in parallel to different microchannel structure of the same microfluidic device (unit C), d) quick penetration into a microchannel structure of an aliquot of a liquid dispensed to an inlet port of a microchannel structure (unit D), and e) volume definition integrated within a microchannel structure (unit E).
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Citations
17 Claims
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1. A microfluidic device comprising a microchannel structure in which there are one or more inlet ports, one or more outlet ports, and one or more structural units wherein said structural unit comprises:
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(a) a retaining microcavity which is located between one of said one or more inlet ports and one of said one or more outlet ports;
(b) a mixing unit which is located upstream the retaining microcavity and downstream one of said inlet ports;
(c) two or more microconduits directly connected to the retaining microcavity and communicating with one of said inlet or outlet ports;
wherein one or more of said microconduits comprise anti-wicking means in association with the joint between the retaining microcavity and the microconduit and/or the distance (d1) from the retaining microcavity to an opening to ambient atmosphere and including a microconduit that lacks anti-wicking means and is directly attached to the retaining microcavity, is ≧
20 times the largest inner cross-sectional dimension of the microconduit at its joint to the retaining microcavity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A microfluidic device having a microchannel structure in which there are one or more inlet ports, one or more outlet ports, and a structural unit in communication with at least one of said ports, wherein the structural unit is a mixing unit that enables mixing of two aliquots that are miscible with each other, and which said mixing unit comprises:
- a microcavity with an outlet opening;
an inlet arrangement linked to the microcavity, and a mixing microconduit connected to the outlet opening.
- a microcavity with an outlet opening;
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14. A microfluidic device having a microchannel structure in which there are one or more inlet ports, one or more outlet ports, and a structural unit in communication with at least one of said ports, wherein the structural unit is a distribution manifold which enables partition of a larger portion of liquid into smaller aliquots which subsequently are introduced in parallel into downstream parts of separate microchannel structures, and which said manifold comprises
(a) a continuous microconduit containing an upper part at each end and therebetween alternating lower and upper parts, the number of upper parts is n and the number of lower parts is n− - 1 where n is an integer ≧
2;
(b) a vent to ambient atmosphere and/or anti-wicking means in length-going edges delineating its lower wall(s) in each of the upper parts;
(c) an emptying opening in each of the lower parts which opening in a downstream direction via a connecting microconduit communicates with the remaining substructure of the microchannel structure or with the corresponding substructure of another microchannel structure;
(d) a valve in each of the connecting microconduits;
(e) an inlet port which is connected to the continuous microconduit directly or indirectly at one of the upper parts; and
(f) an outlet port which is connected to the continuous microconduit directly or indirectly at an upper part that is not connected to said inlet. - View Dependent Claims (15)
- 1 where n is an integer ≧
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16. A microfluidic device having a microchannel structure in which there are one or more inlet ports, one or more outlet ports, and a structural unit in communication with at least one of said ports, wherein the structural unit is an inlet port which promotes penetration from an inlet opening into the microchannel structure and said inlet port comprises:
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a) a microcavity;
b) an inlet opening c) an inlet microconduit located downstream said microcavity and in communication with the interior of the microchannel structure; and
d) one, two or more grooves and/or ridges in the inner wall of the microcavity which grooves and/or ridges are directed towards the connection between the microcavity and the inlet microconduit.
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17. A microfluidic device comprising a microchannel structure in which there are one or more inlet ports, one or more outlet ports, and a structural unit in communication with at least one of said ports, wherein said structural unit is the integrated volume defining unit that enables volume-definition of an aliquot within the microchannel structure and which said volume defining unit comprises:
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a) a volume-defining microcavity;
b) an inlet microconduit which is connected to the microcavity via an inlet opening of the microcavity;
c) an outlet microconduit which is connected to the microcavity via an outlet opening of the microcavity with a valve at the joint between the outlet microconduit and microcavity; and
d) an overflow microconduit, which is connected to an overflow opening of the microcavity which overflow opening is at the same level as the joint between the inlet microconduit and the volume defining microcavity, the microcavity being constricted at the overflow opening;
wherein the overflow opening is at a higher level than the outlet opening and the volume being defined as the volume between the valve and the overflow opening.
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Specification