A system for obtaining a pH measurement includes a disposable probe and a reader. The disposable probe comprises multiple indicating electrodes and at least one reference electrode. The reader is configured to operably engage with the disposable probe and provide pH information of a sample.

A system for obtaining a pH measurement includes a disposable probe and a reader. The disposable probe comprises multiple indicating electrodes and at least one reference electrode. The reader is configured to operably engage with the disposable probe and provide pH information of a sample.

A sensor for the detection of lead includes a substrate, a working electrode formed on a surface of the substrate, a counter electrode formed on the surface of the substrate, a dielectric layer covering a portion of the working electrode and counter electrode and defining an aperture exposing other portions of the working electrode and counter electrode. The working electrode includes a metalized film with working surface and a monolayer (or bilayer) of bismuth deposited on the working surface by underpotential deposition.

A method for manufacturing a biosensor includes forming an electrode layer on a flexible foil. An adhesive layer is positioned on the foil layer, and a first photo-definable hydrogel membrane is positioned over the electrode layer and the adhesive layer. A second photo-definable hydrogel membrane with an immobilized bio-recognition element is positioned over the first hydrogel membrane in contact with the electrode layer through an opening in the first hydrogel membrane.

A method for manufacturing a biosensor includes forming an electrode layer on a flexible foil. An adhesive layer is positioned on the foil layer, and a first photo-definable hydrogel membrane is positioned over the electrode layer and the adhesive layer. A second photo-definable hydrogel membrane with an immobilized bio-recognition element is positioned over the first hydrogel membrane in contact with the electrode layer through an opening in the first hydrogel membrane.

An electrochemical gas sensor (10) with a housing (11), with an electrolyte reservoir (12) and with a plurality of electrodes (31, 32, 33). The electrodes (31, 32, 33) include at least one working electrode (31), one counterelectrode (32) and one reference electrode (33). The electrolyte reservoir (12) is filled with a liquid electrolyte (60). All of the electrodes (31, 32, 33) are arranged at or on a common electrode carrier (20).

In some embodiments, an electrochemical sensing system includes a working electrode and a reference electrode. At least a portion of the working electrode includes rhodium. An electrical circuit is electronically coupled to the working electrode and the reference electrode. The electrical circuit is configured to bias the working electrode at voltage of less than about 0.4 V which is sufficient to electrochemically decompose a target analyte, and to measure a current corresponding to the concentration of the target analyte. In some embodiments, a biosensing molecule can be disposed on the working electrode and is operative to catalytically decompose a non-electroactive target analyte to yield and an electroactive by-product. In some embodiment, the reference electrode can include rhodium and its oxides.

In some embodiments, an electrochemical sensing system includes a working electrode and a reference electrode. At least a portion of the working electrode includes rhodium. An electrical circuit is electronically coupled to the working electrode and the reference electrode. The electrical circuit is configured to bias the working electrode at voltage of less than about 0.4 V which is sufficient to electrochemically decompose a target analyte, and to measure a current corresponding to the concentration of the target analyte. In some embodiments, a biosensing molecule can be disposed on the working electrode and is operative to catalytically decompose a non-electroactive target analyte to yield and an electroactive by-product. In some embodiment, the reference electrode can include rhodium and its oxides.

A body fluid sampling system for use on a tissue site includes a single drive force generator. A plurality of penetrating members are operatively coupled to the force generator. The force generator moves each of the members along a path out of a housing with a penetrating member exit, into the tissue site, stops in the tissue site, and withdraws out of the tissue site. A flexible support member couples the penetrating members to define a linear array. The support member is movable and configured to move each of the penetrating members to a launch position associated with the force generator.

The potentiometric sensor element comprises a measuring element and a shield housing permanently bonded to the measuring element, in which housing an electronic sensor unit is accommodated and which is sealed off against external influences. The electronic sensor unit is connected to a contactless interface adapted to exchange energy and signals with a corresponding contactless interface in an electronic base unit. The shield housing comprises an outer sleeve and an inner sleeve, accommodated within the outer sleeve, wherein the electronic sensor unit is accommodated in the inner sleeve and is surrounded there by a first casting compound. The filled inner sleeve is in turn bonded permanently to the outer sleeve by means of a second casting compound, which is different from the first casting compound.