A Multimodal Electronic Nose Based on High-Density Flexible Sensor Array of Carbon Nanotubes and Photoactive Macromolecules Hybrid Nanostructures

Tran, Thien-Toan; Park, Hyusim; To, Dung T.; Gangadhara, Karthik; Brady, Jacob; Hart, Joseph; Jung, Sungyong; Myung, Nosang V.

doi:10.1149/ma2020-02161471mtgabs

Cited by 1 publication

(2 citation statements)

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“…In this regard, significant efforts have been reported in the recent literature on the development of sensor arrays, e‐tongue, e‐nose, or e‐skin capable of sensing multiple stimuli. [ 169 , 170 , 171 , 172 ] For instance, Yu et al. [ 169 ] designed and fabricated a six‐unit sensing array system for multiflavor detection.…”

Section: Current Challenges and Future Opportunitiesmentioning

confidence: 99%

“…In this regard, significant efforts have been reported in the recent literature on the development of sensor arrays, e-tongue, e-nose, or e-skin capable of sensing multiple stimuli. [169][170][171][172] For instance, Yu et al [169] designed and fabricated a six-unit sensing array system for multiflavor detection. The sensor array system was fabricated by laser direct writing on a polymer substrate, leading to a six-unit sensing array that could perform multiple measurements simultaneously.…”

Section: Current Challenges and Future Opportunitiesmentioning

confidence: 99%

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Wearable Sensors for Remote Health Monitoring: Potential Applications for Early Diagnosis of Covid‐19

Mirjalali

Peng

Fang³

et al. 2021

Adv Materials Technologies

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Wearable sensors are emerging as a new technology to detect physiological and biochemical markers for remote health monitoring. By measuring vital signs such as respiratory rate, body temperature, and blood oxygen level, wearable sensors offer tremendous potential for the noninvasive and early diagnosis of numerous diseases such as Covid‐19. Over the past decade, significant progress has been made to develop wearable sensors with high sensitivity, accuracy, flexibility, and stretchability, bringing to reality a new paradigm of remote health monitoring. In this review paper, the latest advances in wearable sensor systems that can measure vital signs at an accuracy level matching those of point‐of‐care tests are presented. In particular, the focus of this review is placed on wearable sensors for measuring respiratory behavior, body temperature, and blood oxygen level, which are identified as the critical signals for diagnosing and monitoring Covid‐19. Various designs based on different materials and working mechanisms are summarized. This review is concluded by identifying the remaining challenges and future opportunities for this emerging field.

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