Patent application number | Description | Published |
20090020421 | Voltage-Type Gas Concentration Sensor and Sensing Method - This invention discloses a voltage-type gas concentration sensor and sensing method thereof. An ionic sensing electrode, a solid electrolyte membrane and a gas-permeable membrane are provided. The ionic sensing electrode comprises a sensing window. The solid electrolyte membrane is disposed on the sensing window. The gas-permeable membrane is disposed on the solid electrolyte membrane. By detecting the change of a reaction voltage as a result of reaction between the ionic sensing electrode and a solution to be measured, the invention is able to determine the pH of the solution to be measured. | 01-22-2009 |
20090020423 | Potentiometric Mg2+ Sensor and Method thereof - A potentiometric Mg | 01-22-2009 |
20090021263 | Multi-Ion Potential Sensor and Fabrication thereof - A multi-ion potential sensor is disclosed. The multi-ion potential sensor comprises a substrate, a conductive layer, an isolation layer, a tin oxide (SnO | 01-22-2009 |
20090021740 | OPTICAL SENSOR AND METHOD FOR MEASURING BLOOD GAS - The present invention discloses an optical sensor for measuring blood gas, used to measure gas concentration in a liquid, comprising: an indicator solution; a first conduit for filling with the indicator solution wherein the first conduit passes through the liquid and the gas in the liquid can diffuse into the first conduit to react with the indicator solution so as to change the color of the indicator solution; a second conduit for receiving the reacted indicator solution in the first conduit; and a light emitter and a photodetector provided in opposition to each other at the two sides of the second conduit wherein the light emitter emits light towards the second conduit and the photodetector receives the light passing through the second conduit and the reacted indicator solution and thereby outputs a sensing signal depending on the received light intensity. | 01-22-2009 |
20090022629 | SOLID-STATE UREA BIOSENSOR - A solid-state urea biosensor may comprise a substrate, an electrically conductive layer, a PH sensing film, an ammonium ion selecting film and a ferment film. The electrically conductive layer covers the substrate. The PH sensing film has a PH value measuring zone, partially covering the electrically conductive layer, for measuring the PH value of a solution to be tested. The ammonium ion selecting film has an ammonium ion measuring zone for measuring the ammonium ion concentration. The ammonium ion selecting film partially covers the PH sensing film and exposes the PH value measuring zone. The ferment film is used for measuring the urea concentration in the solution, wherein the ferment film partially covers the ammonium ion selecting film and exposes the ammonium ion measuring zone. | 01-22-2009 |
20090038940 | Reference Electrode - The present invention discloses a reference electrode. According to the invention, a capillary structure is plugged in a solid state electrolyte layer of the reference electrode. By capillary phenomenon, a test solution is sucked to the solid state electrolyte layer to have reaction. Therefore, according to the invention, a test solution can be measured by simply placing the capillary structure of the reference electrode into the test solution. The lifetime of the reference electrode can be greatly extended. | 02-12-2009 |
20090119026 | PORTABLE MULTI-IONS SENSING SYSTEM AND FABRICATION THEREOF - A portable multi-ions sensing system is provided. The sensing system includes: a sensing unit for sensing a pH value and a plurality of ion concentrations of a solution and outputting a sensing signal, wherein the sensing unit includes: a substrate; an ITO layer on the substrate; a sensing layer on the ITO layer and connected with an extended lead; a packaging layer encapsulating the sensing layer, the ITO layer and a portion of the substrate with a sensing window for exposing a portion of the sensing layer; a multi-ions selective layer on the portion of the sensing layer exposed by the sensing window for sensing the ion concentrations; and a reference electrode for providing a reference potential for the sensing layer; an analog signal processing unit for receiving, filtering, amplifying and adjusting the level of the sensing signal and outputting a front-end signal; a microcontroller unit for receiving and performing analog/digital converting and two-point correcting processes on the front-end signal and outputting a measurement data; and a real-time display unit for receiving and displaying the measurement data. | 05-07-2009 |
20090194416 | Potentiometric biosensor for detection of creatinine and forming method thereof - The present invention discloses a potentiometric biosensor for detecting creatinine, and the forming method thereof. The disclosed biosensor comprises a substrate, a working electrode formed on the substrate, a first reference electrode formed on the substrate, a second reference electrode formed on the substrate, and a packaging structure which separates the above-mentioned three electrodes. The working electrode comprises creatinine iminohydrolase (CIH). The detection signal is transmitted out from the biosensor for further processing through a wire or an exposed surface. The disclosed biosensor is replaceable. | 08-06-2009 |
20090221058 | Potentiometric biosensor for detection of lactate in food and forming method thereof - The present invention discloses a potentiometric biosensor for detecting lactate in food, and the forming method thereof. The disclosed biosensor comprises a substrate, and conducting layer on the substrate, an oxide layer on the conducting layer, and an enzyme layer on the oxide layer, wherein the enzyme layer comprises Lactate dehydrogenase (LDH). The detection signal is transmitted for further processing through a wire connected to the conducting layer, or a window formed on the surface of conducting layer. | 09-03-2009 |