Flexible Sensing Electronics for Wearable/Attachable Health Monitoring
Wearable or attachable health monitoring smart systems are considered to be the next generation of personal portable devices for remote medicine practices. Smart flexible sensing electronics are components crucial in endowing health monitoring systems with the capability of real‐time tracking of phy...
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| Veröffentlicht in: | Small (Weinheim an der Bergstrasse, Germany) Jg. 13; H. 25 |
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| Format: | Journal Article |
| Sprache: | Englisch |
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Germany
Wiley Subscription Services, Inc
01.07.2017
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| ISSN: | 1613-6810, 1613-6829, 1613-6829 |
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| Abstract | Wearable or attachable health monitoring smart systems are considered to be the next generation of personal portable devices for remote medicine practices. Smart flexible sensing electronics are components crucial in endowing health monitoring systems with the capability of real‐time tracking of physiological signals. These signals are closely associated with body conditions, such as heart rate, wrist pulse, body temperature, blood/intraocular pressure and blood/sweat bio‐information. Monitoring such physiological signals provides a convenient and non‐invasive way for disease diagnoses and health assessments. This Review summarizes the recent progress of flexible sensing electronics for their use in wearable/attachable health monitoring systems. Meanwhile, we present an overview of different materials and configurations for flexible sensors, including piezo‐resistive, piezo‐electrical, capacitive, and field effect transistor based devices, and analyze the working principles in monitoring physiological signals. In addition, the future perspectives of wearable healthcare systems and the technical demands on their commercialization are briefly discussed.
Flexible sensing electronics play crucial roles in wearable health monitoring systems, which is considered to be a convenient and effective way for disease diagnoses and health assessments. The advances of flexible sensing electronics and related nanomaterials in healthcare are summarized. |
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| AbstractList | Wearable or attachable health monitoring smart systems are considered to be the next generation of personal portable devices for remote medicine practices. Smart flexible sensing electronics are components crucial in endowing health monitoring systems with the capability of real‐time tracking of physiological signals. These signals are closely associated with body conditions, such as heart rate, wrist pulse, body temperature, blood/intraocular pressure and blood/sweat bio‐information. Monitoring such physiological signals provides a convenient and non‐invasive way for disease diagnoses and health assessments. This Review summarizes the recent progress of flexible sensing electronics for their use in wearable/attachable health monitoring systems. Meanwhile, we present an overview of different materials and configurations for flexible sensors, including piezo‐resistive, piezo‐electrical, capacitive, and field effect transistor based devices, and analyze the working principles in monitoring physiological signals. In addition, the future perspectives of wearable healthcare systems and the technical demands on their commercialization are briefly discussed.
Flexible sensing electronics play crucial roles in wearable health monitoring systems, which is considered to be a convenient and effective way for disease diagnoses and health assessments. The advances of flexible sensing electronics and related nanomaterials in healthcare are summarized. Wearable or attachable health monitoring smart systems are considered to be the next generation of personal portable devices for remote medicine practices. Smart flexible sensing electronics are components crucial in endowing health monitoring systems with the capability of real-time tracking of physiological signals. These signals are closely associated with body conditions, such as heart rate, wrist pulse, body temperature, blood/intraocular pressure and blood/sweat bio-information. Monitoring such physiological signals provides a convenient and non-invasive way for disease diagnoses and health assessments. This Review summarizes the recent progress of flexible sensing electronics for their use in wearable/attachable health monitoring systems. Meanwhile, we present an overview of different materials and configurations for flexible sensors, including piezo-resistive, piezo-electrical, capacitive, and field effect transistor based devices, and analyze the working principles in monitoring physiological signals. In addition, the future perspectives of wearable healthcare systems and the technical demands on their commercialization are briefly discussed. Wearable or attachable health monitoring smart systems are considered to be the next generation of personal portable devices for remote medicine practices. Smart flexible sensing electronics are components crucial in endowing health monitoring systems with the capability of real-time tracking of physiological signals. These signals are closely associated with body conditions, such as heart rate, wrist pulse, body temperature, blood/intraocular pressure and blood/sweat bio-information. Monitoring such physiological signals provides a convenient and non-invasive way for disease diagnoses and health assessments. This Review summarizes the recent progress of flexible sensing electronics for their use in wearable/attachable health monitoring systems. Meanwhile, we present an overview of different materials and configurations for flexible sensors, including piezo-resistive, piezo-electrical, capacitive, and field effect transistor based devices, and analyze the working principles in monitoring physiological signals. In addition, the future perspectives of wearable healthcare systems and the technical demands on their commercialization are briefly discussed.Wearable or attachable health monitoring smart systems are considered to be the next generation of personal portable devices for remote medicine practices. Smart flexible sensing electronics are components crucial in endowing health monitoring systems with the capability of real-time tracking of physiological signals. These signals are closely associated with body conditions, such as heart rate, wrist pulse, body temperature, blood/intraocular pressure and blood/sweat bio-information. Monitoring such physiological signals provides a convenient and non-invasive way for disease diagnoses and health assessments. This Review summarizes the recent progress of flexible sensing electronics for their use in wearable/attachable health monitoring systems. Meanwhile, we present an overview of different materials and configurations for flexible sensors, including piezo-resistive, piezo-electrical, capacitive, and field effect transistor based devices, and analyze the working principles in monitoring physiological signals. In addition, the future perspectives of wearable healthcare systems and the technical demands on their commercialization are briefly discussed. |
| Author | Liu, Zheng Zhang, Ting Wang, Xuewen |
| Author_xml | – sequence: 1 givenname: Xuewen surname: Wang fullname: Wang, Xuewen organization: Nanyang Technological University – sequence: 2 givenname: Zheng surname: Liu fullname: Liu, Zheng organization: Nanyang Technological University – sequence: 3 givenname: Ting surname: Zhang fullname: Zhang, Ting email: tzhang2009@sinano.ac.cn organization: Chinese Academy of Sciences |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28306196$$D View this record in MEDLINE/PubMed |
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| Copyright | 2017 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim |
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| Snippet | Wearable or attachable health monitoring smart systems are considered to be the next generation of personal portable devices for remote medicine practices.... |
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| SubjectTerms | Blood Pressure - physiology Body Temperature Commercialization Detection Electronics Field effect transistors flexible electronics health monitoring Heart - physiology Heart rate Humans Intraocular pressure Medicine Monitoring systems Monitoring, Physiologic - methods Nanotechnology Physiological effects Physiology Portable equipment pressure sensors Real time Remote sensing Sensors Signal monitoring Space shuttle Sweat Wearable Electronic Devices wearable electronics Wearable technology Wrist |
| Title | Flexible Sensing Electronics for Wearable/Attachable Health Monitoring |
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