2019
DOI: 10.1016/j.mseb.2019.114382
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Detection of Zn in water using novel functionalised planar microwave sensors

Abstract: Metal pollution in aquatic environments has attracted global attention. Current methods are not able to monitor water quality in-situ at low-cost. This paper reports on a novel approach for detecting changes in the concentration of zinc in water using electrical and a microwave sensor method, adopting two planar sensors: one was functionalised with a screen-printed β-Bi 2 O 3 based coating, while the other was uncoated. Results show that both electrical and the microwave sensor responses were dependent on the … Show more

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Cited by 16 publications
(12 citation statements)
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“…Initial experiments demonstrated the feasibility of measuring water samples by dipping the waterproofed sensors in water samples. Figure 8 compares the signal response measured by placing 400 μL of the water sample onto the sensor (black line) (as described by [93]) and submerging the sensors into a DW sample (red line) using the adapted eightpair IDE sensor directly probing the water sample, keeping in mind the possibility to move to the real-world environment and performing in situ measurements. The signal response changes from using the 400 μL method described in previous works, probably due to the propagation of the EM waves in a diverse volume.…”
Section: Preliminary Laboratory Analysis Probing Water Samplesmentioning
confidence: 99%
“…Initial experiments demonstrated the feasibility of measuring water samples by dipping the waterproofed sensors in water samples. Figure 8 compares the signal response measured by placing 400 μL of the water sample onto the sensor (black line) (as described by [93]) and submerging the sensors into a DW sample (red line) using the adapted eightpair IDE sensor directly probing the water sample, keeping in mind the possibility to move to the real-world environment and performing in situ measurements. The signal response changes from using the 400 μL method described in previous works, probably due to the propagation of the EM waves in a diverse volume.…”
Section: Preliminary Laboratory Analysis Probing Water Samplesmentioning
confidence: 99%
“…The sensing response as S 11 can be determined by direct contact between the material and the analyte under test, which changes the permittivity of each component, and the consequent overall complex permittivity changes. The improvement can be associated with the increase of material thickness as well as the composition itself [ 66 ].…”
Section: Functionalised Electromagnetic Wave Sensorsmentioning
confidence: 99%
“… Microwave sensor functionalized with Bi 2 O 3 -based coating for the detection of Zn in water ( left ), and the dependence of the reflected signal (S 11 ) response on Zn concentration ( right ). Reproduced with permission from [ 66 ] © Elsevier. …”
Section: Figurementioning
confidence: 99%
“…Screen-printing technology can be used to place thick films on planar EM sensors. The produced coatings have the advantage of being repeatable, reusable and can be prepared using a mixture of various materials, increasing the specific detection of compounds in complex water matrices (Frau et al 2019b).…”
Section: F-em Sensorsmentioning
confidence: 99%
“…Consequently, the sensing performance was improved by a modification of the spectral response and the increment of specificity (Bernou et al 2000). Notably, the EM waves interact with each part of the sensor and the sensing response will depend on the permittivity change of each component, such as the sensor itself, the coating, the coating thickness, the chelated metal ions on the coating and the sample under test (Frau et al 2019a). The f-EM sensors are not only detecting the metals which are chelated on the L-CyChBCZ substrate, and which generate a variation in the spectral response, but also the overall change in the sample under test.…”
Section: Sem and Eds Analysismentioning
confidence: 99%