 Electrostatic protection structure for MOS circuits |
| The present invention is directed to an ESD protection circuit which includes a pair of lateral NPN ... |
|
| CMOS output circuit with enhanced ESD protection using drain side implantation |
| A principal object of the present invention is to provide an effective and very manufacturable ... |
|
| Pressure alarm in water-sealed camera |
| What is claimed is: 1. A camera adapted to be sealed against water, said camera comprising: ... |
|
| Surface treatment apparatus |
| Applicant's invention is an improved plating treatment system including an improved fluid transfer ... |
|
| Composition and process for forming electrically insulating thin films |
| OF THE INVENTION The present invention relates to an insulating thin film-forming composition that ... |
|
| Low dielectric constant porous films |
| OF THE PREFERRED EMBODIMENT Accordingly, nanoporous silica dielectric films having a dielectric ... |
|
| Thermal CVD process for depositing a low dielectric constant carbon-doped silicon oxide film |
| The method of the present invention provides such a new and improved low-k material deposition ... |
|
| Semiconductor power conversion apparatus |
| It is therefore an object of the present invention to provide a semiconductor power conversion ... |
|
| Silicon metallographic etch |
| OF THE INVENTION Referring to FIG. 1 there is shown a graph showing the change in etch rate at two ... |
|
|
Strip electrode with screen printing
| Details |
Inventors: Hill, Hugh Allen Oliver; Higgins, Irving John; McCann, James Michael; Davis, Graham;
Assignee: MediSense, Inc. (Bedford, MA)
Primary Examiner: Shay; David
Assistant Examiner:
Attorney, Agent or Firm: Fish & Richardson P.C.
A sensor system that detects a current representative of a compound in a liquid mixture features a two-electrode strip adapted for releasable attachment to signal readout circuitry. The strip comprises an elongated support (preferably flat) adapted for releasable attachment to the readout circuitry; a first conductor and a second conductor each extend along the support and comprise means for connection to the circuitry. An active electrode, positioned to contact the liquid mixture and the first conductor, comprises a single layer deposit of an enzyme capable of catalyzing a reaction involving the compound, a conductive material, and an electron mediator, capable of transferring electrons between the enzyme-catalyzed reaction and the first conductor. A reference electrode is positioned to contact the mixture and the second conductor. The system includes circuitry adapted to provide an electrical signal representative of the current. The two-electrode strip is manufactured, e.g., by screen printing, an admixture of an enzyme a conductive material, and a mediator as a single layer onto the substrate. |
|
DETAILED DESCRIPTION We claim: 1.
A method of making a single use disposable electrode strip for attachment to signal readout circuitry of a sensor system to detect a current representative of a compound in a liquid sample, the strip comprising: a) an elongated support adapted for releasable attachment to said readout circuitry; b) a first conductor extending along said support and comprising a conductive element for connection to said readout circuitry; and c) an active electrode on said support in contact with said first conductor, said active electrode comprising, in a single printed layer on said support, an admixture of an enzyme capable of catalyzing a reaction involving a substrate for said enzyme, a conductive material, and a mediator capable of transferring electrons transferred between said enzyme-catalyzed reaction and said first conductor to create a current representative of the activity of said enzyme and representative of said compound; the method comprising: a) supplying an ink comprising said admixture of said enzyme, said conductive material, and said mediator; and b) printing said active electrode by applying said ink to said support in a single layer in contact with said first conductor.
2.
The method of claim 1 further comprising the step of, prior to supplying the admixture, adsorbing said mediator on said conductive material.
3.
The method of claim 1, wherein said step of printing said active electrode comprises screen printing said ink.
4.
The method of claim 1, further comprising providing, on said elongated support at an end thereof remote from said conductive element, an area not covered by said active electrode to allow for handling of said strip.
5.
The method of claim 1, further comprising the steps of positioning said conductive element for connection to readout circuitry toward one end of the support, and positioning said active electrode remote from said end.
6.
The method of claim 1, further comprising the step of configuring said conductive element so as to allow releasable attachment with a socket on a readout meter
|
|
Semiconductor manufacture 
