A Flexible Smart Healthcare Platform Conjugated with Artificial Epidermis Assembled by Three-Dimensionally Conductive MOF Network for Gas and Pressure Sensing
Abstract The rising flexible and intelligent electronics greatly facilitate the noninvasive and timely tracking of physiological information in telemedicine healthcare. Meticulously building bionic-sensitive moieties is vital for designing efficient electronic skin with advanced cognitive functional...
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| Format: | Article |
| Language: | English |
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SpringerOpen
2024-10-01
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| Series: | Nano-Micro Letters |
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| Online Access: | https://doi.org/10.1007/s40820-024-01548-5 |
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| author | Qingqing Zhou Qihang Ding Zixun Geng Chencheng Hu Long Yang Zitong Kan Biao Dong Miae Won Hongwei Song Lin Xu Jong Seung Kim |
| author_facet | Qingqing Zhou Qihang Ding Zixun Geng Chencheng Hu Long Yang Zitong Kan Biao Dong Miae Won Hongwei Song Lin Xu Jong Seung Kim |
| author_sort | Qingqing Zhou |
| collection | DOAJ |
| description | Abstract The rising flexible and intelligent electronics greatly facilitate the noninvasive and timely tracking of physiological information in telemedicine healthcare. Meticulously building bionic-sensitive moieties is vital for designing efficient electronic skin with advanced cognitive functionalities to pluralistically capture external stimuli. However, realistic mimesis, both in the skin’s three-dimensional interlocked hierarchical structures and synchronous encoding multistimuli information capacities, remains a challenging yet vital need for simplifying the design of flexible logic circuits. Herein, we construct an artificial epidermal device by in situ growing Cu3(HHTP)2 particles onto the hollow spherical Ti3C2T x surface, aiming to concurrently emulate the spinous and granular layers of the skin’s epidermis. The bionic Ti3C2T x @Cu3(HHTP)2 exhibits independent NO2 and pressure response, as well as novel functionalities such as acoustic signature perception and Morse code-encrypted message communication. Ultimately, a wearable alarming system with a mobile application terminal is self-developed by integrating the bimodular senor into flexible printed circuits. This system can assess risk factors related with asthmatic, such as stimulation of external NO2 gas, abnormal expiratory behavior and exertion degrees of fingers, achieving a recognition accuracy of 97.6% as assisted by a machine learning algorithm. Our work provides a feasible routine to develop intelligent multifunctional healthcare equipment for burgeoning transformative telemedicine diagnosis. |
| format | Article |
| id | doaj-art-08e8ccc592aa4d71aa1e4804a2bb60c8 |
| institution | Kabale University |
| issn | 2311-6706 2150-5551 |
| language | English |
| publishDate | 2024-10-01 |
| publisher | SpringerOpen |
| record_format | Article |
| series | Nano-Micro Letters |
| spelling | doaj-art-08e8ccc592aa4d71aa1e4804a2bb60c82025-08-20T04:02:55ZengSpringerOpenNano-Micro Letters2311-67062150-55512024-10-0117112010.1007/s40820-024-01548-5A Flexible Smart Healthcare Platform Conjugated with Artificial Epidermis Assembled by Three-Dimensionally Conductive MOF Network for Gas and Pressure SensingQingqing Zhou0Qihang Ding1Zixun Geng2Chencheng Hu3Long Yang4Zitong Kan5Biao Dong6Miae Won7Hongwei Song8Lin Xu9Jong Seung Kim10State Key Laboratory of Integrated Optoelectronics, College of Electronic Science and Engineering, Jilin UniversityDepartment of Chemistry, Korea UniversityState Key Laboratory of Integrated Optoelectronics, College of Electronic Science and Engineering, Jilin UniversityState Key Laboratory of Integrated Optoelectronics, College of Electronic Science and Engineering, Jilin UniversityState Key Laboratory of Integrated Optoelectronics, College of Electronic Science and Engineering, Jilin UniversityState Key Laboratory of Integrated Optoelectronics, College of Electronic Science and Engineering, Jilin UniversityState Key Laboratory of Integrated Optoelectronics, College of Electronic Science and Engineering, Jilin UniversityDepartment of Chemistry, Korea UniversityState Key Laboratory of Integrated Optoelectronics, College of Electronic Science and Engineering, Jilin UniversityState Key Laboratory of Integrated Optoelectronics, College of Electronic Science and Engineering, Jilin UniversityDepartment of Chemistry, Korea UniversityAbstract The rising flexible and intelligent electronics greatly facilitate the noninvasive and timely tracking of physiological information in telemedicine healthcare. Meticulously building bionic-sensitive moieties is vital for designing efficient electronic skin with advanced cognitive functionalities to pluralistically capture external stimuli. However, realistic mimesis, both in the skin’s three-dimensional interlocked hierarchical structures and synchronous encoding multistimuli information capacities, remains a challenging yet vital need for simplifying the design of flexible logic circuits. Herein, we construct an artificial epidermal device by in situ growing Cu3(HHTP)2 particles onto the hollow spherical Ti3C2T x surface, aiming to concurrently emulate the spinous and granular layers of the skin’s epidermis. The bionic Ti3C2T x @Cu3(HHTP)2 exhibits independent NO2 and pressure response, as well as novel functionalities such as acoustic signature perception and Morse code-encrypted message communication. Ultimately, a wearable alarming system with a mobile application terminal is self-developed by integrating the bimodular senor into flexible printed circuits. This system can assess risk factors related with asthmatic, such as stimulation of external NO2 gas, abnormal expiratory behavior and exertion degrees of fingers, achieving a recognition accuracy of 97.6% as assisted by a machine learning algorithm. Our work provides a feasible routine to develop intelligent multifunctional healthcare equipment for burgeoning transformative telemedicine diagnosis.https://doi.org/10.1007/s40820-024-01548-5Ti3C2T x @Cu3(HHTP)2 compositesNO2/pressure flexible sensorsHealth-monitoringMachine learning |
| spellingShingle | Qingqing Zhou Qihang Ding Zixun Geng Chencheng Hu Long Yang Zitong Kan Biao Dong Miae Won Hongwei Song Lin Xu Jong Seung Kim A Flexible Smart Healthcare Platform Conjugated with Artificial Epidermis Assembled by Three-Dimensionally Conductive MOF Network for Gas and Pressure Sensing Nano-Micro Letters Ti3C2T x @Cu3(HHTP)2 composites NO2/pressure flexible sensors Health-monitoring Machine learning |
| title | A Flexible Smart Healthcare Platform Conjugated with Artificial Epidermis Assembled by Three-Dimensionally Conductive MOF Network for Gas and Pressure Sensing |
| title_full | A Flexible Smart Healthcare Platform Conjugated with Artificial Epidermis Assembled by Three-Dimensionally Conductive MOF Network for Gas and Pressure Sensing |
| title_fullStr | A Flexible Smart Healthcare Platform Conjugated with Artificial Epidermis Assembled by Three-Dimensionally Conductive MOF Network for Gas and Pressure Sensing |
| title_full_unstemmed | A Flexible Smart Healthcare Platform Conjugated with Artificial Epidermis Assembled by Three-Dimensionally Conductive MOF Network for Gas and Pressure Sensing |
| title_short | A Flexible Smart Healthcare Platform Conjugated with Artificial Epidermis Assembled by Three-Dimensionally Conductive MOF Network for Gas and Pressure Sensing |
| title_sort | flexible smart healthcare platform conjugated with artificial epidermis assembled by three dimensionally conductive mof network for gas and pressure sensing |
| topic | Ti3C2T x @Cu3(HHTP)2 composites NO2/pressure flexible sensors Health-monitoring Machine learning |
| url | https://doi.org/10.1007/s40820-024-01548-5 |
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