A reference electrode system for a pH-sensor system includes: a first junction having a membrane with a sealed side; a reference electrode, the reference electrode and/or an electrically conducting wire of the reference electrode being covered completely except for an end portion of the reference electrode, by a sleeve; and a tube that is arranged, at least partly, around the reference electrode, the electrically conducting wire, and the sleeve, the tube having a closed end which is arranged near the end portion of the reference electrode.

A method for selectively and easily quantifying the L-form and/or D-form amino acids to be measured using an aminoacyl tRNA synthetase (AARS) with high sensitivity, and an amino acid quantification kit. A method for quantifying amino acids (L-AA and/or D-AA) in a sample using an AARS, wherein the amino acids and the AARS are released from an aminoacyl AMP-AARS complex once formed, and they are used again for forming the aminoacyl AMP-AARS complex, so that reaction products such as pyrophosphoric acid to be measured can be ultimately produced up to a molar number larger than that of the amino acids contained in the sample, and an amino acid quantification kit for performing the method.

A monitor and indicator system includes a sensor part, a control and indication part, and a power part. The monitor and indicator system is configured to: (a) monitor a concentration of a sterilant in a sanitizing solution; (b) determine a depletion of the sterilant upon detecting that the concentration of the sterilant becomes equal to or falls below a predetermined threshold concentration level; and (c) indicate the depletion of the sterilant of the sanitizing solution by emitting a notification.

A liquid-sensing apparatus includes a substrate, partitions, and independent sensors. The partitions are disposed on the substrate for separating several housing spaces in order to respectively house a to-be-detected liquid, wherein each of the housing spaces has a bottom, a closed sidewall, and an open top, and thus the to-be-detected liquid may be dripped from the top of the housing space. The independent sensors are respectively formed at the bottom of different housing spaces, wherein the independent sensors respectively include different sensing material layers, and surfaces of the different sensing material layers have nanoholes.

To provide a component set for the production of a ready-for-use chlorine dioxide sensor which affords a chlorine dioxide sensor containing a strongly acid electrolyte which has exactly the low pH-value in the range of 1.1 to 1.5, that is desired for use in the chlorine dioxide sensor, according to the invention there is proposed a component set characterised in that it includes an amperometric measuring cell having an electrolyte chamber and a working electrode arranged therein and a reference electrode arranged therein, and at least one container containing a liquid standard electrolyte and at least one container containing a solid acid additive.

A method for determining a concentration of a chemical of interest in a recirculating analyte system includes the steps of selecting a first indicator threshold, measuring the flow rate of the recirculating analyte system, controllably adding a known amount of reagent to the recirculating analyte system at an known flow rate, repetitively measuring an indicator of the recirculating analyte system downstream from the addition of the reagent, and computing the concentration of the chemical of interest of the recirculating analyte system when the indicator measurement crosses the indicator threshold.

The non-invasive method of assessing the reducing potential of culture medium of in vitro cultured embryos as part of an ART procedure serves as an alternative or supportive method to assess the viability of in vitro cultured embryos without doing any harm to the embryos.

Embodiments described herein relate generally to compositions that include a synthetic redox-active receptor, and in particular to compositions that include a boronic acid based synthetic redox-active receptor which can electrochemically sense a target analyte in a sample solution. In some embodiments, a synthetic redox-active receptor can have a composition of formula I:

##STR00001##

wherein the variables L, R, R, n and X.sup. are described herein.

Methods for in situ measurement of an oxidation reduction potential (ORP) and pH of a solution comprising iron are provided. The methods comprise measuring a kinetic parameter at an electrode surface of an electrode system comprising a working electrode, a counter electrode and a pseudo-reference electrode, wherein the kinetic parameter is associated with ferric reduction or both ferric reduction and ferrous oxidation and comparing the kinetic parameter to calibration data for the electrode system to determine the ORP and pH of the solution. Also provided are apparatus and systems for in situ measurement of an ORP and pH of a solution comprising iron. The apparatus and systems comprise an electrode system comprising a working electrode, a counter electrode and a pseudo-reference electrode and a detector for measuring a kinetic parameter at an electrode surface of the electrode system.

Disclosed herein are systems and methods configured for real-time multi-parameter monitoring of fluid systems associated with metal-working equipment. The disclosed fluid monitoring systems are configured to acquire in real time multiple parameters associated with the well-being of fluid systems of metal-working equipment. The data acquired in real-time can also be provided to remote devices to allow off-site personnel to monitor metal-working equipment. The fluid monitoring systems can also include fluorescence probes configured to determine fluid concentration and/or soil load values using fluorescence. The fluorescence probes can provide excitation light and detect emission light forming a small angle with respect to one another, emission light coming from a surface of the metal-working fluid.