Method and system for detecting drug and/or drug metabolites in a liquid sample, such as a wastewater sample. According to one embodiment, the method involves providing a device that includes a graphene field effect transistor and a first aptamer coupled to the graphene field effect transistor in a first well, the first aptamer being selective for a first drug or drug metabolite. Next, a liquid sample is introduced to the first aptamer of the device. Next, a sweeping liquid gate voltage is applied to the device to obtain a resistance versus liquid gate voltage plot for the device. Next, the Dirac voltage shift, if any, in the liquid gate voltage plot for the device is used to determine the presence and/or quantity of the drug or drug metabolite. Additional aptamers selective for different drugs or drug metabolites of interest may also be included in other wells of the device.

Method and system for detecting drug and/or drug metabolites in a liquid sample, such as a wastewater sample. According to one embodiment, the method involves providing a device that includes a graphene field effect transistor and a first aptamer coupled to the graphene field effect transistor in a first well, the first aptamer being selective for a first drug or drug metabolite. Next, a liquid sample is introduced to the first aptamer of the device. Next, a sweeping liquid gate voltage is applied to the device to obtain a resistance versus liquid gate voltage plot for the device. Next, the Dirac voltage shift, if any, in the liquid gate voltage plot for the device is used to determine the presence and/or quantity of the drug or drug metabolite. Additional aptamers selective for different drugs or drug metabolites of interest may also be included in other wells of the device.

Apparatus for measuring at least one property of a fluid comprises a capacitive fluid sensor (110) comprising a first electrode (111) and a second electrode (112) with a sensing region (113) between the electrodes. The apparatus comprises an alternating signal source (120) configured to apply an alternating drive signal to the capacitive fluid sensor (110). The apparatus comprises a processing apparatus (200) configured to receive a sense signal from the capacitive fluid sensor (110) and the alternating drive signal. The processing apparatus (200) is configured to: determine a complex difference signal comprising an in-phase difference component between the drive signal and the sense signal and a quadrature difference component between the drive signal and the sense signal; determine the at least one property of the fluid based on both the in-phase phase difference component and the quadrature difference component of the difference signal.

Apparatus for measuring at least one property of a fluid comprises a capacitive fluid sensor (110) comprising a first electrode (111) and a second electrode (112) with a sensing region (113) between the electrodes. The apparatus comprises an alternating signal source (120) configured to apply an alternating drive signal to the capacitive fluid sensor (110). The apparatus comprises a processing apparatus (200) configured to receive a sense signal from the capacitive fluid sensor (110) and the alternating drive signal. The processing apparatus (200) is configured to: determine a complex difference signal comprising an in-phase difference component between the drive signal and the sense signal and a quadrature difference component between the drive signal and the sense signal; determine the at least one property of the fluid based on both the in-phase phase difference component and the quadrature difference component of the difference signal.

An absorbent article includes: a liquid-absorbent body; a liquid-permeable sheet disposed on a skin side in a thickness direction of the absorbent article with respect to the liquid-absorbent body; a liquid-impermeable sheet disposed on a non-skin side in the thickness direction with respect to the liquid-absorbent body; one or more skin-side electrodes between the liquid-permeable sheet and the liquid-absorbent body; and one or more non-skin-side electrodes between the liquid-impermeable sheet and the liquid-absorbent body.

An absorbent article includes: a liquid-absorbent body; a liquid-permeable sheet disposed on a skin side in a thickness direction of the absorbent article with respect to the liquid-absorbent body; a liquid-impermeable sheet disposed on a non-skin side in the thickness direction with respect to the liquid-absorbent body; one or more skin-side electrodes between the liquid-permeable sheet and the liquid-absorbent body; and one or more non-skin-side electrodes between the liquid-impermeable sheet and the liquid-absorbent body.

The Nondestructive Fluid Sensing System is a device that rapidly scans fluids to determine physical and chemical properties of the sample fluid. The Nondestructive Fluid Sensing System can detect the presence of a sample fluid with various optical and electrical sensors, and determines physical and chemical properties. The system features several innovations that increase sample throughput, reduces sample cross contamination, and eliminates waste products typically used in chemical tests. The system may be applied to various industries including manufacturing quality control, and healthcare.

The Nondestructive Fluid Sensing System is a device that rapidly scans fluids to determine physical and chemical properties of the sample fluid. The Nondestructive Fluid Sensing System can detect the presence of a sample fluid with various optical and electrical sensors, and determines physical and chemical properties. The system features several innovations that increase sample throughput, reduces sample cross contamination, and eliminates waste products typically used in chemical tests. The system may be applied to various industries including manufacturing quality control, and healthcare.

Provided are a total organic carbon measurement method and a total organic carbon measurement device capable of determining whether or not an acid has been added to a sample. An acid is introduced into a reaction unit in which the sample is placed from a reservoir in which the acid is reserved (step S103). The conductivity of the sample into which the acid has been introduced is measured (step S105). The introduction of the acid from the reservoir into the reaction unit is detected on the basis of a change in the conductivity of the sample (step S107).

A method for determining whether a syrup contains a preservative at a needed level is provided. The method includes measuring a conductivity of the syrup, determining whether the measured conductivity is below a predetermined conductivity value determined based on a target syrup according to a syrup recipe, and determining whether the preservative is below the needed level in response to the measured conductivity being below the predetermined conductivity value.