Multilayer microfluidic probe head with immersion channels and fabrication thereof
First Claim
1. A microfluidic probe head comprising:
- a base layer and a cover layer, the base layer and cover layer collectively defining a front end and an opposing back end,the base layer comprises;
a base layer top surface;
a base layer bottom surface opposing the base layer top surface;
a first side surface;
a second side surface extending from the first side surface toward the back end,wherein the first side surface is arranged at the front end than the second side surface,wherein the base layer top surface and the first side surface define a pair of processing liquid grooves, wherein at least a part of each of the pair of processing liquid grooves is formed on the base layer top surface, and an end of each of the pair of processing liquid grooves is formed at a first intersection of the first side surface and the base layer top surface, andwherein the base layer top surface and the second side surface define an immersion liquid groove that is separate from the pair of processing liquid grooves, wherein at least a part of the immersion liquid groove is formed on the base layer top surface, and a an end of the immersion liquid groove is formed at a second intersection of the second side surface and the base layer top surface,wherein the cover layer is connected to the base layer,wherein the cover layer and the pair of processing liquid grooves of the base layer define a pair of processing liquid microchannels, and the cover layer and the end of the pair of processing liquid grooves of the base layer define a pair of processing liquid apertures, andwherein the cover layer and the immersion liquid groove of the base layer define an immersion liquid microchannel, and the cover layer and the end of the immersion liquid groove of the base layer define an immersion liquid aperture.
1 Assignment
0 Petitions
Accused Products
Abstract
The invention is directed to a microfluidic probe head (100) with a base layer (120) comprising: at least two processing liquid microchannel (123, 124) in fluid communication with a processing liquid aperture (121, 122) on a face of the base layer; and an immersion liquid microchannel (223, 224) in fluid communication with a immersion liquid aperture (221, 222) on a face of the base layer, wherein the microfluidic probe head is configured to allow, in operation, processing liquid provided through the processing liquid aperture to merge into immersion liquid provided through the immersion liquid aperture. An additional layer can be provided to close the microchannels. Such a multilayered head is compact and easier to fabricate than heads made with unitary construction. The head can further be interfaced with tubing using e.g. a standard fitting for tubing port.
30 Citations
7 Claims
-
1. A microfluidic probe head comprising:
-
a base layer and a cover layer, the base layer and cover layer collectively defining a front end and an opposing back end, the base layer comprises; a base layer top surface; a base layer bottom surface opposing the base layer top surface; a first side surface; a second side surface extending from the first side surface toward the back end, wherein the first side surface is arranged at the front end than the second side surface, wherein the base layer top surface and the first side surface define a pair of processing liquid grooves, wherein at least a part of each of the pair of processing liquid grooves is formed on the base layer top surface, and an end of each of the pair of processing liquid grooves is formed at a first intersection of the first side surface and the base layer top surface, and wherein the base layer top surface and the second side surface define an immersion liquid groove that is separate from the pair of processing liquid grooves, wherein at least a part of the immersion liquid groove is formed on the base layer top surface, and a an end of the immersion liquid groove is formed at a second intersection of the second side surface and the base layer top surface, wherein the cover layer is connected to the base layer, wherein the cover layer and the pair of processing liquid grooves of the base layer define a pair of processing liquid microchannels, and the cover layer and the end of the pair of processing liquid grooves of the base layer define a pair of processing liquid apertures, and wherein the cover layer and the immersion liquid groove of the base layer define an immersion liquid microchannel, and the cover layer and the end of the immersion liquid groove of the base layer define an immersion liquid aperture. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A method of fabrication of fabricating a microfluidic probe head, comprising the steps of:
-
providing a base layer having a front end and an opposing back end, wherein the base layer comprises; a base layer top surface; a base layer bottom surface opposing the base layer top surface; a first side surface; a second side surface extending from the first side surface toward the back end, and wherein the first side surface is arranged at the front end than the second side surface; forming a pair of processing liquid grooves in the base layer top surface and the first side surface, wherein at least a part of each of the pair of processing liquid grooves is formed on the base layer top surface, and an end of each of the pair of processing liquid grooves is formed at a first intersection of the first side surface and the base layer top surface; forming an immersion liquid groove in the base layer top surface and the second side surface, wherein at least a part of the immersion liquid groove is formed on the base layer top surface, and an end of the immersion liquid groove is formed at a second intersection of the second side surface and the base layer top surface; and providing a cover layer connected to the base layer, wherein the cover layer and the pair of processing liquid grooves of the base layer define a pair of processing liquid microchannels, and the cover layer and the end of the pair of processing liquid grooves of the base layer define a pair of processing liquid apertures, and wherein the cover layer and the immersion liquid groove of the base layer define an immersion liquid microchannel, and the cover layer and the end of the immersion liquid groove of the base layer define an immersion liquid aperture.
-
Specification