Patent application number | Description | Published |
20090266712 | CALCIUM ION SENSORS AND FABRICATION METHOD THEREOF, AND SENSING SYSTEMS COMPRISING THE SAME - A calcium ion sensor is provided. The calcium ion sensor includes a metal oxide semiconductor field effect transistor, a sensing unit including a substrate, a ruthenium dioxide membrane formed thereon and a calcium ion sensing membrane formed on the ruthenium dioxide membrane, and a conductive wire connecting the metal oxide semiconductor field effect transistor and the sensing unit. The invention also provides a method for fabricating a calcium ion sensor, and a sensing system including the sensor. | 10-29-2009 |
20090278175 | METHOD FOR FORMING EXTENDED GATE FIELD EFFECT TRANSISTOR (EGFET) BASED SENSOR AND THE SENSOR THEREFROM - The invention provides a method for forming an extended gate field effect transistor (EGFET) based sensor, including: (a) providing a substrate; (b) forming a sensing film including titanium dioxide, ruthenium doped titanium dioxide or ruthenium oxide on the substrate; and (c) forming a conductive wire extended from the sensing film for external contact. | 11-12-2009 |
20090321792 | SEPARATIVE EXTENDED GATE FIELD EFFECT TRANSISTOR BASED URIC ACID SENSING DEVICE, SYSTEM AND METHOD FOR FORMING THEREOF - A separative extended gate field effect transistor based uric acid sensing device is provided, including: a substrate; a conductive layer including a silver paste layer on the substrate and a graphite-based paste layer on the silver paste layer; a conductive wire extended from the conductive layer; a titanium dioxide layer on the conductive layer; and a uric acid enzyme sensing film on the titanium dioxide layer. | 12-31-2009 |
20100207171 | METHOD FOR SODIUM ION SELECTIVE ELECTRODE, SODIUM ION SELECTIVE ELECTRODE THEREFROM AND SODIUM ION SENSING DEVICE - The invention provides a method for forming a sodium ion selective electrode, including: (a) providing a conductive substrate; (b) forming a conductive wire which extends from the conductive substrate for external contact; and (c) forming a sodium ion sensing film on the conductive substrate, wherein the method for forming the conductive substrate includes: providing a substrate; and forming a conductive layer on the substrate. | 08-19-2010 |
20100270179 | METHOD FOR MEASURING PH VALUE OF SAMPLE SOLUTION AND SYSTEM THEREOF - The invention provides a method for measuring a pH value of a sample solution, which is performed by a pH sensing device, including: providing a pH sensing device and a sample solution, wherein the pH sensing device includes a pH sensor array, and the pH sensor array comprises m pH sensors, and m is an integer greater than 1; measuring the sample solution with the pH sensor array for n times, wherein n is an integer greater than 1, n measurement values are generated, each pH sensor generates a measurement value for each measurement, and the total amount of measurement values generated is n×m; and generating a pH value of the sample solution by all of the measurement values generated by the pH sensor array. | 10-28-2010 |
20110056847 | ION CONCENTRATION MEASUREMENT SYSTEM AND METHODS THEREOF - An ion concentration measurement system is provided. The ion concentration measurement system has: at least an end system having a sensing unit for measuring the ion concentration of a test solution to generate at least a sensing signal; a control unit for controlling the acquisition of the sensing signal; a display unit for displaying the sensing signal in real time; and an end wireless transmission interface for transmitting the sensing signal wirelessly. | 03-10-2011 |
20110115473 | MULTI-ELECTRODE MEASURING SYSTEM - The invention provides a multi-electrode measuring system including a front end device which is a sensing device including a multi-electrode sensing device having a plurality of electrodes; a multi-channel fixture coupled to the multi-electrode sensing device; and a reference electrode. A back-end device as a virtual instrumentation is an electronic device including a read out circuit device coupled to the multi-channel fixture and the reference electrode for receiving each original signal from each electrode of the multi-electrode sensing device and the reference electrode determining a sample solution; a data acquisition device coupled to the read out circuit device for digitizing each original signal to form a digital signal and for array sampling; and a signal processing device coupled to the data acquisition device for processing each signal. | 05-19-2011 |
Patent application number | Description | Published |
20090008249 | SYSTEMS OF MEASURING A CONCENTRATION OF ALKALOID IN A SOLUTION - An alkaloid sensor, systems comprising the same, and measurement using the systems. The alkaloid sensor has an extended gate field effect transistor (EGFET) structure and comprises a metal oxide semiconductor field effect transistor (MOSFET) on a semiconductor substrate, a sensing unit comprising a substrate, a tin oxide film on the substrate, and an alkaloid acylase film immobilized on the tin oxide film, and a conductive wire connecting the MOSFET and the sensing unit. | 01-08-2009 |
20090008681 | ALKALOID SENSOR - An alkaloid sensor, systems comprising the same, and measurement using the systems. The alkaloid sensor has an extended gate field effect transistor (EGFET) structure and comprises a metal oxide semiconductor field effect transistor (MOSFET) on a semiconductor substrate, a sensing unit comprising a substrate, a tin oxide film on the substrate, and an alkaloid acylase film immobilized on the tin oxide film, and a conductive wire connecting the MOSFET and the sensing unit. | 01-08-2009 |
20090145776 | PENICILLIN G BIOSENSOR, SYSTEMS COMPRISING THE SAME, AND MEASUREMENT USING THE SYSTEMS - A penicillin G biosensor, systems comprising the same, and measurement using the systems. The penicillin G biosensor has an extended gate field effect transistor (EGFET) structure and comprises a metal oxide semiconductor field effect transistor (MOSFET) on a semiconductor substrate, a sensing unit comprising a substrate, a tin oxide film on the substrate, and a penicillin G acylase film immobilized on the tin oxide film, and a conductive wire connecting the MOSFET and the sensing unit. | 06-11-2009 |
20100140079 | PREPARATION OF A PH SENSOR, THE PREPARED PH SENSOR, SYSTEM COMPRISING THE SAME AND MEASUREMENT USING THE SYSTEM - Preparation of a pH sensor, the prepared pH sensor, system comprising the same, and measurement using the system. The pH sensor is an extended gate field effect transistor (EGFET) structure. The preparation includes the steps of providing an extended gate ion sensitive field effect transistor comprising an extended gate region, forming a titanium nitride film on the extended gate region by RF sputtering deposition to obtain a pH sensor. | 06-10-2010 |
Patent application number | Description | Published |
20090170207 | REFERENCE PH SENSOR, PREPARATION AND APPLICATION THEREOF - A reference pH sensor, the preparation and application thereof. The reference pH sensor is an extended gate field effect transistor (EGFET) structure and comprises a metal oxide semiconductor field effect transistor (MOSFET) on a semiconductor substrate, a sensing unit comprising a substrate, a solid-state conductive sensing layer on the substrate, and a polypyrrole layer on the solid-state conductive sensing layer, and a metal wire connecting the MOSFET and the sensing unit. | 07-02-2009 |
20090266719 | Potentiometric Urea Sensor Based on Ion-Selective Electrode - A sensor for sensing and measuring a concentration of urea in a sample has an ammonium ion selective membrane and urease enzymes immobilized on the ammonium ion selective membrane. The urease enzymes enzymatically convert urea into ammonium ions, which is sensed by said ammonium ion selective membrane and transformed into a signal. A detector system is used for processing signal from said ammonium ion selective membrane to generate a response potential that corresponds to the concentration of urea in the sample. | 10-29-2009 |
20090283805 | BIOSENSOR CONTAINING RUTHENIUM, MEASUREMENT USING THE SAME AND THE APPLICATION THEREOF - A biosensor containing ruthenium, measurement using the same, and the application thereof. The biosensor comprises an extended gate field effect transistor (EGFET) structure, including a metal oxide semiconductor field effect transistor (MOSFET), a sensing unit comprising a substrate, a layer comprising ruthenium on the substrate, and a metal wire connecting the MOSFET and the sensing unit. | 11-19-2009 |
20100106425 | SOLID-STATE UREA BIOSENSOR AND ITS DATA ACQUISITION SYSTEM - A data acquisition system for a solid-state urea biosensor uses an amplifier, a low-pass filter and a data acquisition card to acquire and relay data to a computer to be analyzed by a signal analysis program and displayed on a display panel. The biosensor includes a substrate, and three individual sensing areas separated by an insulating layer on the substrate. Each individual sensing area contains a conductive layer on the substrate, and a pH sensitive membrane is deposited thereon. An enzyme layer is deposited on one of the pH sensitive membranes to form a working electrode. The other two sensing areas are a quasi-reference electrode and a contrast electrode, respectively. The signals are transferred to an instrumentation amplifier. The amplified signals are then transferred to a low-pass filter. The filtered signals are analyzed by the program and then displayed on the display panel. | 04-29-2010 |
20120000796 | Measurement Device and Method Utilizing the Same - A measurement device measuring a solution and including a reference voltage generating unit, a plurality of sensing units, a reading unit and a processing unit is disclosed. The reference voltage generating unit is disposed in the solution to generate a reference voltage. The sensing units are disposed in the solution to generate a plurality of output signals relating to the reference voltage. The reading unit outputs a reading signal according to one of the output signals. The processing unit generates a measuring signal according to the reading signals. | 01-05-2012 |