Claims
- 1. An integral filter and capillary comprising
- a substrate having a major surface,
- a first recessed region on said surface and in said substrate including a first plurality of generally parallel grooves,
- a second groove on said surface and in said substrate connected with said first recessed region adjacent to one end of said first plurality of grooves, said second groove having cross-sectional dimensions greater than the cross-sectional dimensions of said first plurality of grooves,
- a cover affixed to said major surface and covering said first recessed region and said second groove,
- a fluid input to said first recessed region adjacent to one end of said first plurality of grooves opposite from said second groove, and
- a fluid output connected to said second groove.
- 2. The integral filter and capillary as defined by claim 1 wherein said substrate comprises a semiconductor body and said cover comprises a glass plate.
- 3. The integral filter and capillary as defined by claim 2 wherein said fluid input includes a first hole through said plate in communication with said first recessed region.
- 4. The integral filter and capillary as defined by claim 3 wherein said fluid output includes a second recessed region on said surface and in said substrate including a second plurality of generally parallel grooves, said second groove being connected to said second recessed region adjacent to one end of said second plurality of grooves, said cross-sectional dimensions of said second groove being greater than the cross-sectional dimensions of said second plurality of grooves.
- 5. The integral filter and capillary as defined by claim 4 wherein said fluid output further includes a second hole through said plate in communication with said second recessed region.
- 6. The integral filter and capillary as defined by claim 1 wherein said fluid output includes a second recessed region on said surface and in said substrate including a second plurality of generally parallel grooves, said second groove being connected to said second recessed region at one end of said second plurality of grooves, said cross-sectional dimensions of said second groove being greater than the cross-sectional dimensions of said second plurality of grooves.
Government Interests
The U.S. Government has rights in this invention pursuant to National Institute of Health Grant No. NIH-RR-01086.
US Referenced Citations (5)