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Force Sensors: A Highly Sensitive Force Sensor with Fast Response Based on Interlocked Arrays of Indium Tin Oxide Nanosprings toward Human Tactile Perception (Adv. Funct. Mater. 42/2018)
Advanced Functional Materials ( IF 18.5 ) Pub Date : 2018-10-15 , DOI: 10.1002/adfm.201870304 Sungwoo Chun 1 , Il Yong Choi 2 , Wonkyeong Son 1 , Gi Yoon Bae 1 , Eun Jae Lee 2 , Hyunah Kwon 2 , Jaimyun Jung 2 , Hyoung Seop Kim 2 , Jong Kyu Kim 2 , Wanjun Park 1
Advanced Functional Materials ( IF 18.5 ) Pub Date : 2018-10-15 , DOI: 10.1002/adfm.201870304 Sungwoo Chun 1 , Il Yong Choi 2 , Wonkyeong Son 1 , Gi Yoon Bae 1 , Eun Jae Lee 2 , Hyunah Kwon 2 , Jaimyun Jung 2 , Hyoung Seop Kim 2 , Jong Kyu Kim 2 , Wanjun Park 1
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In article number 1804132, Jong Kyu Kim, Wanjun Park, and co‐workers describe a highly sensitive force sensor based on interlocked arrays of vertically aligned rigid indium tin oxide (ITO) nanosprings. Sub‐millisecond response times to both static and dynamic pressures are achieved. Surface texture recognition by rubbing the sensor combined with a finger print structure can classify eight fabrics with 99.8% accuracy, comparable to human tactile perception.
中文翻译:
力传感器:基于对人类触觉感知的氧化铟锡纳米弹簧互锁阵列的快速响应的高灵敏度力传感器(Adv。Funct。Mater。42/2018)
Jong Kyu Kim,Wanjun Park和同事在文章1804132中描述了一种基于垂直排列的刚性铟锡氧化物(ITO)纳米弹簧的互锁阵列的高度灵敏的力传感器。达到了对静态压力和动态压力的亚毫秒级响应时间。通过摩擦传感器并结合指纹结构来识别表面纹理,可以对八种织物进行分类,精度达到99.8%,可与人类的触觉感知相媲美。
更新日期:2018-10-15
中文翻译:
力传感器:基于对人类触觉感知的氧化铟锡纳米弹簧互锁阵列的快速响应的高灵敏度力传感器(Adv。Funct。Mater。42/2018)
Jong Kyu Kim,Wanjun Park和同事在文章1804132中描述了一种基于垂直排列的刚性铟锡氧化物(ITO)纳米弹簧的互锁阵列的高度灵敏的力传感器。达到了对静态压力和动态压力的亚毫秒级响应时间。通过摩擦传感器并结合指纹结构来识别表面纹理,可以对八种织物进行分类,精度达到99.8%,可与人类的触觉感知相媲美。
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