2023
DOI: 10.1002/eom2.12332
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Sensor design strategy for environmental and biological monitoring

Abstract: Rapid industrial growth has severely impacted ecosystems and aggravated economic and health risks to society. Monitoring of ecosystems is fundamental to our understanding of how ecosystem change impacts resources and is critical for developing data-based sustainability. Thus, the design and development of optimized sensors for ecosystem monitoring have received increasing attention.This review provides a comprehensive overview of systematic sensor design strategies for ecosystem monitoring from the material le… Show more

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Cited by 23 publications
(17 citation statements)
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“…Wearable sensors have emerged as a promising technology in revolutionizing human life, especially for healthcare and wellness monitoring, as they can offer continuous, real-time, and noninvasive monitoring of various environmental and physiological parameters. , While flexible and stretchable thin-film materials have enabled the development of versatile wearable sensors, they lack permeability and comfortability due to their solid structures. , In this regard, the PCTs provide an appealing platform for the fabrication of wearable sensors that can be highly permeable and comfortable, owing to their soft texture and porous structure. These textile-based wearable sensors can be fabricated by utilizing functional PCTs through weaving, knitting, or printing technologies.…”
Section: Wearable Devices Based On Pctsmentioning
confidence: 99%
“…Wearable sensors have emerged as a promising technology in revolutionizing human life, especially for healthcare and wellness monitoring, as they can offer continuous, real-time, and noninvasive monitoring of various environmental and physiological parameters. , While flexible and stretchable thin-film materials have enabled the development of versatile wearable sensors, they lack permeability and comfortability due to their solid structures. , In this regard, the PCTs provide an appealing platform for the fabrication of wearable sensors that can be highly permeable and comfortable, owing to their soft texture and porous structure. These textile-based wearable sensors can be fabricated by utilizing functional PCTs through weaving, knitting, or printing technologies.…”
Section: Wearable Devices Based On Pctsmentioning
confidence: 99%
“…Electrical, optical, and mechanical properties of the sensing materials are converted to diagnostic signals for on-site users when a biomarker interacts with the sensor materials. 2…”
Section: Introductionmentioning
confidence: 99%
“…Recently, electrochemical sensors have emerged as powerful platforms to meet the request for rapid, low-cost, and accurate sensing of ultralow-concentration hormones by portable miniaturized devices, showing potential in biomedical fields as well as environmental and food quality tracing. 11,12 In previous efforts, researchers attempted to measure salivary P4 and E2 by screen-printed immunosensing platforms. 13−15 However, due to constraints in terms of the limit of detection (LoD), which was ∼10 pM, and the linear range of 0.1−100 nM, undiluted samples and extra sample treatments with specialized instruments had to be utilized for the detection, and the accuracy might be compromised.…”
Section: Introductionmentioning
confidence: 99%
“…While conventional mass spectrometry and immunoassays have been demonstrated to analyze salivary P4 and E2 in clinically relevant studies with acceptable sensitivity in the pM range, , facile and continuous monitoring is difficult to implement using these complicated and expensive instruments. Recently, electrochemical sensors have emerged as powerful platforms to meet the request for rapid, low-cost, and accurate sensing of ultralow-concentration hormones by portable miniaturized devices, showing potential in biomedical fields as well as environmental and food quality tracing. , In previous efforts, researchers attempted to measure salivary P4 and E2 by screen-printed immunosensing platforms. However, due to constraints in terms of the limit of detection (LoD), which was ∼10 pM, and the linear range of 0.1−100 nM, undiluted samples and extra sample treatments with specialized instruments had to be utilized for the detection, and the accuracy might be compromised. Although it is possible to reach a LoD close to the fM level for steroid hormones with the aid of nanomaterials, , aptamers, or molecularly imprinted polymers (MIPs) for electrode functionalization, thus far, sex hormone detection by flexible biosensors fabricated on polymer thin films or paper substrates , has remained limited to the pM level.…”
Section: Introductionmentioning
confidence: 99%