Residential College | false |
Status | 已發表Published |
Magnetized Micropillar-Enabled Wearable Sensors for Touchless and Intelligent Information Communication | |
Zhou, Qian1; Ji, Bing1; Hu, Fengming2; Luo, Jianyi2; Zhou, Bingpu1 | |
2021-09-14 | |
Source Publication | Nano-Micro Letters |
ISSN | 2311-6706 |
Volume | 13Issue:1Pages:197 |
Abstract | The wearable sensors have recently attracted considerable attentions as communication interfaces through the information perception, decoding, and conveying process. However, it is still challenging to obtain a sensor that can convert detectable signals into multiple outputs for convenient, efficient, cryptic, and high-capacity information transmission. Herein, we present a capacitive sensor of magnetic field based on a tilted flexible micromagnet array (t-FMA) as the proposed interaction interface. With the bidirectional bending capability of t-FMA actuated by magnetic torque, the sensor can recognize both the magnitude and orientation of magnetic field in real time with non-overlapping capacitance signals. The optimized sensor exhibits the high sensitivity of over 1.3 T and detection limit down to 1 mT with excellent durability. As a proof of concept, the sensor has been successfully demonstrated for convenient, efficient, and programmable interaction systems, e.g., touchless Morse code and Braille communication. The distinguishable recognition of the magnetic field orientation and magnitude further enables the sensor unit as a high-capacity transmitter for cryptic information interaction (e.g., encoded ID recognition) and multi-control instruction outputting. We believe that the proposed magnetic field sensor can open up a potential avenue for future applications including information communication, virtual reality device, and interactive robotics. |
Keyword | Cryptic Information Communication Electronic Skin Human–machine Interaction Magnetic Field Sensing Tilted Magnetized Micropillar |
DOI | 10.1007/s40820-021-00720-5 |
URL | View the original |
Indexed By | SCIE |
Language | 英語English |
WOS Research Area | Science & Technology - Other Topics ; Materials Science ; Physics |
WOS Subject | Nanoscience & Nanotechnology ; Materials Science, Multidisciplinary ; Physics, Applied |
WOS ID | WOS:000695850100003 |
Publisher | SHANGHAI JIAO TONG UNIV PRESSSHANGHAI JIAO TONG UNIV, 800 DONGCHUAN RD, SHANGHAI 200240, PEOPLES R CHINA |
The Source to Article | PB_Publication |
Scopus ID | 2-s2.0-85114863015 |
Fulltext Access | |
Citation statistics | |
Document Type | Journal article |
Collection | INSTITUTE OF APPLIED PHYSICS AND MATERIALS ENGINEERING |
Corresponding Author | Zhou, Bingpu |
Affiliation | 1.Joint Key Laboratory of the Ministry of Education, Institute of Applied Physics and Materials Engineering, University of Macau, Taipa, Avenida da Universidade, 999078, Macao 2.School of Applied Physics and Materials, Research Center of Flexible Sensing Materials and Devices, Wuyi University, Jiangmen, 529020, China |
First Author Affilication | INSTITUTE OF APPLIED PHYSICS AND MATERIALS ENGINEERING |
Corresponding Author Affilication | INSTITUTE OF APPLIED PHYSICS AND MATERIALS ENGINEERING |
Recommended Citation GB/T 7714 | Zhou, Qian,Ji, Bing,Hu, Fengming,et al. Magnetized Micropillar-Enabled Wearable Sensors for Touchless and Intelligent Information Communication[J]. Nano-Micro Letters, 2021, 13(1), 197. |
APA | Zhou, Qian., Ji, Bing., Hu, Fengming., Luo, Jianyi., & Zhou, Bingpu (2021). Magnetized Micropillar-Enabled Wearable Sensors for Touchless and Intelligent Information Communication. Nano-Micro Letters, 13(1), 197. |
MLA | Zhou, Qian,et al."Magnetized Micropillar-Enabled Wearable Sensors for Touchless and Intelligent Information Communication".Nano-Micro Letters 13.1(2021):197. |
Files in This Item: | There are no files associated with this item. |
Items in the repository are protected by copyright, with all rights reserved, unless otherwise indicated.
Edit Comment