Monitoring of Water Content in Building Materials Using a Wireless Passive Sensor

Stojanović, Goran; Radovanović, Milan; Malešev, Mirjana; Радоњанин, Властимир

doi:10.3390/s100504270

Cited by 46 publications

(35 citation statements)

References 14 publications

(12 reference statements)

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“…The surface-dominated graphene sensing elements allow for intimate, robust conformability onto biological tissues or teeth. As a sensing system, the resulting device has several key meritorious properties, including extremely high sensitivity owing to the graphene network, biotransferability offered by the water-soluble silk fibroin platform, broadly selective biorecogniton enabled by robust AMPs and the ability to achieve battery-free, wireless remote query operation via the incorporation of a parallel resonant circuit with a gold thin-film-patterned meander line inductor 51,52 and interdigitated capacitive electrodes.…”

Section: Discussionmentioning

confidence: 99%

Graphene-based wireless bacteria detection on tooth enamel

et al. 2012

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Direct interfacing of nanosensors onto biomaterials could impact health quality monitoring and adaptive threat detection. Graphene is capable of highly sensitive analyte detection due to its nanoscale nature. Here we show that graphene can be printed onto water-soluble silk. This in turn permits intimate biotransfer of graphene nanosensors onto biomaterials, including tooth enamel. The result is a fully biointerfaced sensing platform, which can be tuned to detect target analytes. For example, via self-assembly of antimicrobial peptides onto graphene, we show bioselective detection of bacteria at single-cell levels. Incorporation of a resonant coil eliminates the need for onboard power and external connections. Combining these elements yields two-tiered interfacing of peptide-graphene nanosensors with biomaterials. In particular, we demonstrate integration onto a tooth for remote monitoring of respiration and bacteria detection in saliva. overall, this strategy of interfacing graphene nanosensors with biomaterials represents a versatile approach for ubiquitous detection of biochemical targets.

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Section: Discussionmentioning

confidence: 99%

Graphene-based wireless bacteria detection on tooth enamel

et al. 2012

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“…For decades, a resonant circuit consisting of an inductor and a capacitor has been widely used in many industrial and biomedical applications: temperature measurement [34], chemical sensing [35], pressure monitoring [34,36,37], water content monitoring in construction materials [38], permittivity sensing in human tissues [34,39], humidity sensing [34,40], pH measurement [41], and strain sensing in structures [42]. In these applications, small change in the physical properties of interest causes deviation in the resonance frequency or impedance change within the resonant circuit.…”

Section: Motivationmentioning

confidence: 99%

Low Voltage Electrostatic Actuation and Displacement Measurement Through Resonant Drive Circuit

Park

Abdel‐Rahman

2012

Volume 5: 6th International Conference on Micro- And Nanosystems; 17th Design for Manufacturing and the Life Cycle Conference

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Most electrostatic actuators fabricated by MEMS technology require high actuation voltage and suffer from the pull-in phenomenon that limits the operation range. We present an amplitude-modulated resonant drive circuit to drive electrostatic actuators at much lower supply voltage than that of conventional actuators to extend their operation range. Analytical and numerical models facilitate stability analysis of electrostatic actuators coupled with the resonant drive circuit. We study the impact of parasitic capacitance and the quality factor of the resonant drive circuit on the operation range of electrostatic actuators. Furthermore, we present a new method to measure the displacement of electrostatic actuators by sensing the phase delay of the actuation voltage with respect to the input voltage. This measurement method allows us to easily incorporate feedback control into existing electrostatic actuators without any modification to the actuator itself.

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“…Among sensor technologies [13]- [18], interdigital capacitors are used for the evaluation of near-surface properties, such as conductivity, permeability, and permittivity of materials [19]- [22]. The interdigital sensors have been used for estimation of properties of dielectric material for dairy products [23], humidity and gas sensors [24], biosensor applications [25]- [28], and detection of dangerous toxins in contaminated seafood [29].…”

Section: Introductionmentioning

confidence: 99%

Determination of Sugar Content in Sugar Solutions using Interdigital Capacitor Sensor

Angkawisittpan¹,

Manasri²

2012

Measurement Science Review

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A novel low-cost electronic tongue system for sugar content determination in sugar solutions is proposed. The system consists of a sine wave generator, a resistor, and an interdigital capacitor sensor forming a first-order electronic high-pass filter circuit. The interdigital capacitor sensor has the planar interdigital structure and the consecutive fingers are connected to positive and negative electrodes. The system has been assembled and the experiments were conducted. The experimental results show that the proposed system has a great potential to determine the sugar content in sugar solutions. It also provides an opportunity for the development of a microcontroller-based low-cost sensing system as an electronic tongue system.

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Monitoring of Water Content in Building Materials Using a Wireless Passive Sensor

Cited by 46 publications

References 14 publications

Graphene-based wireless bacteria detection on tooth enamel

Graphene-based wireless bacteria detection on tooth enamel

Low Voltage Electrostatic Actuation and Displacement Measurement Through Resonant Drive Circuit

Determination of Sugar Content in Sugar Solutions using Interdigital Capacitor Sensor

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