Microfluidic structure assembly with mating microfeatures
First Claim
1. A microfluidic structure assembly, comprising:
- (a) a first plate including a plurality of microdepressions on a mating side of the first plate; and
(b) a second plate including a plurality of microprojections on a mating side of the second plate, coupling to said plurality of microdepressions of the first plate such that at least some of the microprojections of one plate fit into at least some of the microdepressions of the other plate sufficiently far to lock the plates from sliding to form an assembly;
wherein in the assembly at least one of the two plates comprising on its mating side microgrooves neighboring to microprojections and microdepressions, the microgrooves not being mated with any microprojections, such that the microgrooves of one plate are covered by the other plate to form microchannels, such that the assembly can be divided into a plurality of identical smaller assemblies each having one or more identical microchannels.
3 Assignments
0 Petitions
Accused Products
Abstract
A microfluidic structure assembly having a microchannel formed by bonding two plates together is disclosed. The microfluidic structure assembly includes a first plate and a second plate. At least one of these plates has one or more microgrooves. Microdepressions and microprojections are also present in the plates and they connect such that the microprojections of one plate fit into the microdepressions of the other plate. As a result, the two plates are proximate to each other to form an assembly in which the microgrooves to form microchannels. These microdepressions and microprojections securely lock the microchannels into desired positions. Preferably the plates are made by molding to form the microdepressions, microgrooves, and microchannels.
169 Citations
22 Claims
-
1. A microfluidic structure assembly, comprising:
-
(a) a first plate including a plurality of microdepressions on a mating side of the first plate; and (b) a second plate including a plurality of microprojections on a mating side of the second plate, coupling to said plurality of microdepressions of the first plate such that at least some of the microprojections of one plate fit into at least some of the microdepressions of the other plate sufficiently far to lock the plates from sliding to form an assembly;
wherein in the assembly at least one of the two plates comprising on its mating side microgrooves neighboring to microprojections and microdepressions, the microgrooves not being mated with any microprojections, such that the microgrooves of one plate are covered by the other plate to form microchannels, such that the assembly can be divided into a plurality of identical smaller assemblies each having one or more identical microchannels.
-
-
2. A microfluidic structure assembly, comprising:
-
(a) a first plate having a mating side and having on the mating side a plurality of microdepressions; and (b) a second plate having a mating side for coupling with the first plate'"'"'s mating side, the second plate'"'"'s mating side having a plurality of microprojections such that the microprojections of one plate fit into the microdepressions of the other plate sufficiently far to lock the two plates from sliding to form an assembly;
wherein in the assembly at least one of the two plates comprising on its mating side one or more microgrooves neighboring microdepressions and microprojections, the microgrooves not mating with any mircroprojections, such that the microgrooves of one plate are covered by the other plate to form microchannels;where in the microdepressions, microgrooves, and microchannels and are made by molding. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10)
-
-
11. A method of making a microfluidic structure assembly, comprising:
-
(a) making a mold by micromachining one side of a substrate to form on the substrate a plurality of identical microridges and a plurality of microfingers, the microfingers having a height smaller than and at least ten times as numerous as the microridges, and at least ten of the microfingers are nearer to a mid point than to an edge on the mold on which the microfingers are located, at least some of the microfingers being positioned along the microridges proximate thereto; (b) depositing on the mold a layer of liquid for forming a polymeric material to cover the microridges and cover said plurality of microfingers and allowing the liquid for forming a polymeric material to solidify to form a molded plate; (c) releasing the molded plate from the mold such that the solidified plate has one or more microgrooves corresponding to the microridges on the mold, and a plurality of microdepressions corresponding to the microfingers, the molded plate being a first plate of an assembly; (d) making a second molded plate to form a second plate of the assembly, the second plate including microgrooves mirroring the microgrooves of the first molded plate and microprojections positioned mirroring the positions of the microdepressions of the first plate, such that microdepressions of one molded plate correspond to microprojections of the other plate; (e) bonding the two molded plates to form the assembly, said plurality of microdepressions and plurality of microprojections of the two plates coupling such that the microprojections of one plate fit sufficiently far into the microdepressions of the other plate to lock the plates from sliding such that the plates are proximate to each other for the microgrooves of the two plates to match to form microchannels for fluid flow; and (a) dividing the assembly with the first and second plates to result in a plurality of identical smaller assemblies each including a microchannel.
-
-
12. A method of making a mnicrofluidic structure assembly, comprising:
-
(a) making a first mold by micromachining one side of a first substrate to form on the first substrate a plurality of microholes; (b) making a second mold by micromaching one side of the second substrate to form on the second substrate a plurality of microfingers with positions mirroring to the microholes of the first substrate; (c) micromachining one or more microridges on at least one of the first substrate and the second substrate, the microridges not having positions mirroring to any microhole of another plate; (d) depositing on the machined side of each mold a layer of liquid for forming a polymeric material to cover any machined microridges, microfingers and microholes, and allowing the liquid to solidify on each substrate to form a molded plate such that any microridge on the mold will form a microgroove on the molded plate, any microfinger will form a microdepression on the molded plate and any microhole will form a microprojection on the molded plate; (e) releasing the molded plates from the molds; and (f) bonding a molded plate from the first substrate with a molded plate from the second substrate such that the two plates form an assembly, the microdepressions and the microprojections of the two plates are coupled by the microprojections of one plate fitting sufficiently far into the microdepressions of the other plate to lock from sliding, the plates are proximate to each other for the microgrooves to form microchannels for fluid flow. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
-
Specification