A multimodal electronic skin integrating triboelectric nanogenerators and capacitive pressure sensors for material detection
The development of electronic skins (e-skins) with multimodal sensing capabilities, including material detection and pressure measurement capabilities, is critical to promoting the evolution of intelligent sensing systems. Here, a multimodal electronic skin (AMES) composed of a triboelectric nanogen...
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2024
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sg-ntu-dr.10356-1759472024-05-11T16:53:30Z A multimodal electronic skin integrating triboelectric nanogenerators and capacitive pressure sensors for material detection Yan, Hanlong Yifan Wang School of Mechanical and Aerospace Engineering yifan.wang@ntu.edu.sg Chemistry Physics Triboelectric nanogenerator Iontronic pressure sensor Pressure measurements Material identification The development of electronic skins (e-skins) with multimodal sensing capabilities, including material detection and pressure measurement capabilities, is critical to promoting the evolution of intelligent sensing systems. Here, a multimodal electronic skin (AMES) composed of a triboelectric nanogenerator (TENG) and an iontronic pressure sensor that can accurately identify materials and detect pressure levels is proposed. As each material has a unique ability to acquire or release electrons, TENG harness this distinctive electrical signal signature produced when contacting diverse materials for accurate material identification. Simultaneously, iontronic pressure sensors offer sensitive and accurate pressure measurements, enhancing the ability of the system to interpret tactile information and helping the triboelectric signal without the effects of pressure. The relationship between the output voltage signal from the TENG and the capacitance signal from the iontronic pressure sensor is utilized to enable precise material identification and accurate pressure measurement. A multimodal electronic skin (AMES) can accurately identify materials and precisely measure pressure. This study successfully recognized five materials (conductive fabric, PI, cloth fabric, finger, and resin) at three pressure levels (1Kpa, 5Kpa and 10 Kpa). This integrated system not only bridges the gap among current tactile sensing technologies but also expands the potential of e-skin for applications in robotics and interaction technologies. In the future, pixel-level recognition of surfaces composed of multiple materials can be achieved by arraying ASEMs. Master's degree 2024-05-10T01:15:23Z 2024-05-10T01:15:23Z 2024 Thesis-Master by Coursework Yan, H. (2024). A multimodal electronic skin integrating triboelectric nanogenerators and capacitive pressure sensors for material detection. Master's thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/175947 https://hdl.handle.net/10356/175947 en application/pdf Nanyang Technological University |
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Chemistry Physics Triboelectric nanogenerator Iontronic pressure sensor Pressure measurements Material identification |
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Chemistry Physics Triboelectric nanogenerator Iontronic pressure sensor Pressure measurements Material identification Yan, Hanlong A multimodal electronic skin integrating triboelectric nanogenerators and capacitive pressure sensors for material detection |
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The development of electronic skins (e-skins) with multimodal sensing capabilities, including material detection and pressure measurement capabilities, is critical to promoting the evolution of intelligent sensing systems. Here, a multimodal electronic skin (AMES) composed of a triboelectric nanogenerator (TENG) and an iontronic pressure sensor that can accurately identify materials and detect pressure levels is proposed. As each material has a unique ability to acquire or release electrons, TENG harness this distinctive electrical signal signature produced when contacting diverse materials for accurate material identification. Simultaneously, iontronic pressure sensors offer sensitive and accurate pressure measurements, enhancing the ability of the system to interpret tactile information and helping the triboelectric signal without the effects of pressure. The relationship between the output voltage signal from the TENG and the capacitance signal from the iontronic pressure sensor is utilized to enable precise material identification and accurate pressure measurement. A multimodal electronic skin (AMES) can accurately identify materials and precisely measure pressure. This study successfully recognized five materials (conductive fabric, PI, cloth fabric, finger, and resin) at three pressure levels (1Kpa, 5Kpa and 10 Kpa). This integrated system not only bridges the gap among current tactile sensing technologies but also expands the potential of e-skin for applications in robotics and interaction technologies. In the future, pixel-level recognition of surfaces composed of multiple materials can be achieved by arraying ASEMs. |
| author2 |
Yifan Wang |
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Yifan Wang Yan, Hanlong |
| format |
Thesis-Master by Coursework |
| author |
Yan, Hanlong |
| author_sort |
Yan, Hanlong |
| title |
A multimodal electronic skin integrating triboelectric nanogenerators and capacitive pressure sensors for material detection |
| title_short |
A multimodal electronic skin integrating triboelectric nanogenerators and capacitive pressure sensors for material detection |
| title_full |
A multimodal electronic skin integrating triboelectric nanogenerators and capacitive pressure sensors for material detection |
| title_fullStr |
A multimodal electronic skin integrating triboelectric nanogenerators and capacitive pressure sensors for material detection |
| title_full_unstemmed |
A multimodal electronic skin integrating triboelectric nanogenerators and capacitive pressure sensors for material detection |
| title_sort |
multimodal electronic skin integrating triboelectric nanogenerators and capacitive pressure sensors for material detection |
| publisher |
Nanyang Technological University |
| publishDate |
2024 |
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https://hdl.handle.net/10356/175947 |
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1814047123193200640 |