Method and apparatus for electrochemical analysis
First Claim
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1. An electrochemical device, comprising:
- a first electrically conductive layer including a first electrode area and an opposing second electrically conductive layer including a second electrode area, the first and second electrically conductive layers being separated by an insulating spacing layer, wherein at least one of the first or second electrically conductive layers comprises an electrically conductive material and an insulating material, wherein the electrically conductive material is coextensive with the insulating material;
a reaction cell defined by the first and second electrically conductive layers, and a longitudinally extending opening in the spacing layer, the reaction cell including a proximal sample ingress port and a distal end, the reaction cell extending from a proximal sidewall of the device to a distal sidewall of the device, the distal end being at the distal sidewall;
the ingress port comprising at least one of the first electrically conductive layer and the second electrically conductive layer, wherein the ingress port is proximal to and in fluid communication with the reaction cell; and
first and second electrical contact areas positioned on opposite lateral sides of the longitudinal reaction cell, the first electrical contact area positioned on the first electrically conductive layer and the second electrical contact area positioned on the opposing second electrically conductive layer.
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Abstract
Electrochemical sensors for investigating a physiological sample and methods of manufacture are disclosed. The sensor includes a longitudinally extending reaction cell, having electrodes and a reagent, and laterally spaced electrical contact points for electrically communication with a meter. An array of such sensors is further disclosed including connective flaps for joining adjacent sensors. In use, the array of sensors can be stored in a folded configuration and dispensed individually.
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Citations
22 Claims
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1. An electrochemical device, comprising:
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a first electrically conductive layer including a first electrode area and an opposing second electrically conductive layer including a second electrode area, the first and second electrically conductive layers being separated by an insulating spacing layer, wherein at least one of the first or second electrically conductive layers comprises an electrically conductive material and an insulating material, wherein the electrically conductive material is coextensive with the insulating material; a reaction cell defined by the first and second electrically conductive layers, and a longitudinally extending opening in the spacing layer, the reaction cell including a proximal sample ingress port and a distal end, the reaction cell extending from a proximal sidewall of the device to a distal sidewall of the device, the distal end being at the distal sidewall; the ingress port comprising at least one of the first electrically conductive layer and the second electrically conductive layer, wherein the ingress port is proximal to and in fluid communication with the reaction cell; and first and second electrical contact areas positioned on opposite lateral sides of the longitudinal reaction cell, the first electrical contact area positioned on the first electrically conductive layer and the second electrical contact area positioned on the opposing second electrically conductive layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A strip of connected electrochemical sensors, comprising:
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at least two sensors; a first sensor comprising, (a) a first electrically conductive layer, second electrically conductive layer, and a spacer layer positioned therebetween, the spacer layer including a longitudinal aperture defining a reaction cell, the first sensor comprising a proximal end and a distal end, an ingress port at the proximal end comprising at least one of the first electrically conductive layer and the second electrically conductive layer, wherein the ingress port is in fluid communication with the reaction cell, the reaction cell extending from the proximal end to the distal end of the sensor, (b) first and second electrical contact areas positioned on opposite lateral sides of the longitudinal reaction cell, and (c) at least one connective flap at the distal end for connecting with another electrochemical sensor; and a second sensor connected to the first sensor, comprising, (a) a first electrically conductive layer, second electrically conductive layer, and a spacer layer positioned therebetween, the spacer layer including a longitudinal aperture defining a reaction cell, the second sensor comprising a proximal end and a distal end, an ingress port at the proximal end comprising at least one of the first electrically conductive layer and the second electrically conductive layer, wherein the ingress port is in fluid communication with the reaction cell, the reaction cell extending from the proximal end to the distal end of the sensor, (b) first and second electrical contact areas positioned on opposite lateral sides of the longitudinal reaction cell, and (c) at least one connective flap at the proximal end connected to the at least one connective flap at the distal end of the first sensor, wherein at least one of the first or second electrically conductive layers comprises an electrically conductive material and an insulating material, wherein the electrically conductive material is coextensive with the insulating material. - View Dependent Claims (12, 13, 14)
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15. A method of manufacturing an array of sensors, comprising:
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providing a longitudinally extending first electrically conductive layer having a first electrode surface, a longitudinally extending second electrically conductive layer having a second electrode surface, and a longitudinally extending spacer layer having a longitudinal aperture, wherein the spacer layer is continuous along the longitudinal direction, wherein at least one of the first or second electrically conductive layers comprises an electrically conductive material and an insulating material, wherein the electrically conductive material is coextensive with the insulating material; applying a reagent to the first electrically conductive layer; combining the first electrically conductive layer, spacer layer, and second electrically conductive layer, such that the first and second electrode surfaces are opposing, and a portion of the first electrically conductive layer extends laterally beyond the spacer layer and the second electrically conductive layer to define a first electrical contact area, and a portion of the second electrically conductive layer extends laterally beyond the first electrically conductive layer and spacer layer to define a second electrical contact area, and an ingress portion comprises at least one of the first electrically conductive layer and the second electrically conductive layer; and singulating the combined layers along the lateral direction to define discrete sensors, each of the discrete sensors comprising a proximal end and a distal end, wherein the singulating generates the proximal end and the distal end of the discrete sensors. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22)
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Specification