Abstract: A sensor device is adapted to detect glucose concentration in saliva of an object, and includes a conductive substrate, a polymer layer, and a carbon nanomaterial unit. The polymer layer is disposed on the conductive substrate and is made from conducting polymer. The carbon nanomaterial unit is disposed on the polymer layer and includes at least one carbon-nanotube layer. The saliva of the object is applied on the carbon nanomaterial unit and an enzyme is added to be mixed with the saliva to detect the glucose concentration in the saliva. A method for making the sensor device is also provided.

Abstract: A lab-on-a-cartridge (LOAC) handheld assay device including an integrated test cartridge, a carbon nanotube electrode sensor, and a reagent dispenser for dispensing a liquid reagent into the test cartridge. The test cartridge includes a syringe plunger for drawing a test fluid into a test cavity, a bottom wall with a reagent inlet port, and a vibration adaptor for mixing. The reagent input port is attached with a slit valve for engaging with a slit spout of the reagent dispenser as a needleless dispensing system. Carbon nanotube sensors of different three-electrode configurations are provided for testing a volume of test fluid to increase the electrochemical reaction sensitivity. The assay device can be used with a CNT three-electrode sensor for saliva testing for determining glucose concentration.

Abstract: A non-invasive sensing electrode for determining a concentration of glucose in a liquid sample includes a conductive substrate body, a composite layer disposed on the conductive substrate body, and a modifying layer disposed on the composite layer. The composite layer includes a plurality of carbon nanotubes randomly crossing one another, and a plurality of gold nanoparticles attached randomly to the carbon nanotubes. The modifying layer includes a plurality of reduced graphene oxide nanowebs separately attached to the composite layer.

Abstract: A lab-on-a-cartridge (LOAC) handheld assay device including an integrated test cartridge, a carbon nanotube electrode sensor, and a reagent dispenser for dispensing a liquid reagent into the test cartridge. The test cartridge includes a syringe plunger for drawing a test fluid into a test cavity, a bottom wall with a reagent inlet port, and a vibration adaptor for mixing. The reagent input port is attached with a slit valve for engaging with a slit spout of the reagent dispenser as a needleless dispensing system. Carbon nanotube sensors of different three-electrode configurations are provided for testing a volume of test fluid to increase the electrochemical reaction sensitivity. The assay device can be used with a CNT three-electrode sensor for saliva testing for determining glucose concentration.

Abstract: An environmental sound source recognition system and an environmental sound source recognizing method thereof are disclosed. The system includes a plurality of sound sensing modules which are disposed in different planes for individually receiving a sound emitted by a target in order to obtain a plurality of sound sensing signals. A three-dimensional scanning device is used for scanning the environment to produce a three-dimensional environment image data. A signal recording module is used for recording the plurality of sound sensing signals and the three-dimensional environment image data. A processing module is used to calculate a location of the target based on the relative positions of the plurality of sound sensing modules and the plurality of sound sensing signals and to create a three-dimensional sound field according to the three-dimensional environment image data.