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Research Progress of Flexible Piezoresistive Sensors Based on Polymer Porous Materials
ACS Sensors ( IF 8.2 ) Pub Date : 2024-07-24 , DOI: 10.1021/acssensors.4c00836 Song Han 1 , Sheng Li 2 , Xin Fu 3 , Shihui Han 1 , Huanyu Chen 1 , Liu Zhang 1 , Jun Wang 1 , Gaohui Sun 1
ACS Sensors ( IF 8.2 ) Pub Date : 2024-07-24 , DOI: 10.1021/acssensors.4c00836 Song Han 1 , Sheng Li 2 , Xin Fu 3 , Shihui Han 1 , Huanyu Chen 1 , Liu Zhang 1 , Jun Wang 1 , Gaohui Sun 1
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Flexible piezoresistive sensors are in high demand in areas such as wearable devices, electronic skin, and human–machine interfaces due to their advantageous features, including low power consumption, excellent bending stability, broad testing pressure range, and simple manufacturing technology. With the advancement of intelligent technology, higher requirements for the sensitivity, accuracy, response time, measurement range, and weather resistance of piezoresistive sensors are emerging. Due to the designability of polymer porous materials and conductive phases, and with more multivariate combinations, it is possible to achieve higher sensitivity and lower detection limits, which are more promising than traditional flexible sensor materials. Based on this, this work reviews recent advancements in research on flexible pressure sensors utilizing polymer porous materials. Furthermore, this review examines sensor performance optimization and development from the perspectives of three-dimensional porous flexible substrate regulation, sensing material selection and composite technology, and substrate and sensing material structure design.
中文翻译:
基于聚合物多孔材料的柔性压阻传感器研究进展
柔性压阻传感器因其功耗低、弯曲稳定性好、测试压力范围宽、制造工艺简单等优点,在可穿戴设备、电子皮肤、人机界面等领域需求量很大。随着智能技术的进步,对压阻传感器的灵敏度、精度、响应时间、测量范围、耐候性等提出了更高的要求。由于聚合物多孔材料和导电相的可设计性,以及更多的多元组合,可以实现更高的灵敏度和更低的检测限,比传统的柔性传感器材料更有前景。基于此,本文综述了利用聚合物多孔材料的柔性压力传感器的研究进展。此外,本文还从三维多孔柔性基底调控、传感材料选择和复合技术、基底和传感材料结构设计等角度探讨了传感器性能优化和开发。
更新日期:2024-07-24
中文翻译:
基于聚合物多孔材料的柔性压阻传感器研究进展
柔性压阻传感器因其功耗低、弯曲稳定性好、测试压力范围宽、制造工艺简单等优点,在可穿戴设备、电子皮肤、人机界面等领域需求量很大。随着智能技术的进步,对压阻传感器的灵敏度、精度、响应时间、测量范围、耐候性等提出了更高的要求。由于聚合物多孔材料和导电相的可设计性,以及更多的多元组合,可以实现更高的灵敏度和更低的检测限,比传统的柔性传感器材料更有前景。基于此,本文综述了利用聚合物多孔材料的柔性压力传感器的研究进展。此外,本文还从三维多孔柔性基底调控、传感材料选择和复合技术、基底和传感材料结构设计等角度探讨了传感器性能优化和开发。
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