Biosensors coated with co-polymers and their uses thereof includes a substrate; a working electrode on top of the substrate; a detection layer on a top of the working electrode, wherein the detection layer comprises a metallic nanoparticle, polydopamine, and a peptide probe; a biocompatible membrane on a top of the detection layer, wherein the biocompatible membrane comprises a triblock polymer A-b-B-b-C, wherein: A is a hydrophilic soft segment, B is a hydrophobic hard segment, C is a flexible polymer segment, and b is a chain extender.

A voltammetric reference control system for generating a reference signal for an electrochemical sensor. The electrochemical sensor may comprise a voltammetric sensor, a potentiometric sensor, an amperometric sensor, an ion selective sensor and/or the like that is designed to be used in solutions, such as water, seawater, saline solutions and/or the like. The voltammetric reference control system generates a reference potential that does not drift and/or does not require calibration during operation of the electrochemical sensor.

According to one aspect of the invention, a potentiometric sensor having a cathode and an anode. The cathode is configured to provide a summary voltage representative of at least two voltage points. The anode is configured to provide a first voltage. The cathode is in communication with the anode by a first electrolyte forming an open circuit having an open circuit potential. Within the first electrolyte is a concentration of a target ion. The open circuit potential mathematically corresponds to the concentration of the target ion.

In a reference electrode for the potentiometric measurement of ion concentrations, comprising a swellable polymer body filled with at least one electrolyte salt and a potential sensing element of the second type located in the polymer body, preferably of the Ag/AgCl type, the polymer body is composed of preferably organic, hydrophobic prepolymer segments, which are three-dimensionally crosslinked by preferably organic, hydrophilic polymer chains.

The present disclosure relates to a reference electrode including an electrical conductor, an electrically conductive salt bridge provided for contact with a measuring fluid, and a medium electrically conductively connecting the electrical conductor and the salt bridge to each other, wherein the medium and the electrical conductor are completely isolated with respect to the measuring fluid. The salt bridge comprises a polymer matrix and a conducting salt, the conducting salt is formed from a cation and an anion, and the cation and/or the anion are at least partially kept from leaching in the polymer matrix. The present disclosure further relates to an electrochemical sensor, a method for producing the reference electrode and a method for regenerating and/or conditioning the reference electrode.

To provide an electric potential measuring device that can further improve evaluation quality. Provided is an electric potential measuring device including a plurality of readout electrodes arranged in an array form and each configured to detect an electric potential of an action potential generation point generated by an action of a cell, an insulating member, a reference electrode configured to detect a reference potential, and an amplification section configured to obtain a potential difference between a detected electric potential based on the readout electrode and a detected electric potential based on the reference electrode, in which the readout electrode has a covered region where the insulating member is stacked on the readout electrode and an opened region where the insulating member is not stacked on the readout electrode, and the readout electrode has, in the opened region, at least one high portion with high height and/or at least one low portion with low height, with a stacking surface of the readout electrode with the insulating member as a standard.

The present disclosure relates to a glass electrode including an analyte-sensitive glass membrane, an electrically conductive lead, and an intermediate layer which conductively connects the lead and the glass membrane to one another. According to the present disclosure, the intermediate layer is made of an electron- and/or ion-conducting polymer.

A bioelectrochemical sensor utilizing a nanoporous gold electrode. The bioelectrochemical sensor is suitable for measuring redox in biologic media while having increased resistance to biofouling as compared to conventional electrodes such as planar gold electrodes, due to greater exposed surface area of the three-dimensional ligature structure defining the nanopores. The nanopores have a pore size of 5-100 nm, preferably with an average pore size of less than 50 nm, and more preferably with an average pore size of less than 20 nm.

An electrochemical gas sensor (10) has a housing (20), a working electrode (51), a counterelectrode (52) and a reference electrode (53). The housing (20) has an electrolyte reservoir (30), a gas inlet orifice (21) and at least one gas outlet orifice (22). The electrolyte reservoir (30) is filled with a liquid electrolyte (40). The gas sensor (10) has a counterelectrode carrier (26). The counterelectrode (52) is suspended on the counterelectrode carrier (26) in such a way that the counterelectrode (52) is suspended in the electrolyte reservoir (30) and the electrolyte (40) flows around the counterelectrode (52) on all sides. Preferably, the electrolyte includes (I) a solvent, e.g. water, propylene carbonate, ethylene carbonate or mixtures thereof; (ii) a conductive salt, especially an ionic liquid; and/or (iii) an organic mediator, for example substituted quinones, anthraquinones, etc.

The invention relates to an electrochemical measuring cell for measuring the content of chlorine compounds in water, having an electrolyte chamber (2) which receives an electrolyte, a measuring electrode (3) which delimits the electrolyte chamber, a reference electrode (5), and a counterelectrode (4). Said electrochemical measuring cell is characterised in that the measuring electrode (3) is a rigid, porous platinum membrane having a pore size of 0.15 μm to 0.25 μm, which produces the contact with the electrolyte and the water.