Recent progress in flexible pressure sensor arrays: from design to applications,Journal of Materials Chemistry C

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Recent progress in flexible pressure sensor arrays: from design to applications
Journal of Materials Chemistry C ( IF 5.7 ) Pub Date : 2018-08-17 00:00:00 , DOI: 10.1039/c8tc02946f
Jing Li _{1,

2,

3,

4,

5} , Rongrong Bao _{1,

2,

3,

4,

5} , Juan Tao _{1,

2,

3,

4,

5} , Yiyao Peng _{1,

2,

3,

4,

5} , Caofeng Pan _{1,

2,

3,

4,

5}

Affiliation

Flexible pressure sensors that can maintain their pressure sensing ability with arbitrary deformation are of important significance in the fields of electronic skin, human–machine interfaces and medical diagnosis and treatment. To date, flexible pressure sensors have been studied extensively, and diverse transduction principles as well as different structural designs can be introduced to produce flexible pressure sensors that are capable of conformably covering an arbitrary surface. Moreover, high-performance flexible pressure sensors have been designed for different application needs. For example, high-resolution flexible pressure sensor arrays have been achieved based on piezoelectric nanowires (NWs); meanwhile crack-based pressure sensors with an extraordinarily simple structure have high sensitivity to tiny pressure, such as sound and physiological signals. For broader applications, endowing flexible pressure sensors with the sensing abilities of temperature, humidity and other stimuli are being developed to mimic the somatosensory system of human skin. In recent years, the development of novel flexible pressure sensors has been burgeoning with new sensors developed with self-powered, self-healing and biodegradable abilities. Here, we present comprehensive descriptions of the recent flexible pressure sensors, and then propose the potential prospects of flexible pressure sensors integrated with high sensitivity, high resolution, fast response, good stretchability and a wide detection range together, further enriching the multifunctions of flexible pressure sensors.

中文翻译：

柔性压力传感器阵列的最新进展：从设计到应用

在电子皮肤，人机界面以及医学诊断和治疗领域中，可以保持任意变形而保持其压力感测能力的柔性压力传感器具有重要意义。迄今为止，已经对柔性压力传感器进行了广泛的研究，并且可以引入多种换能原理以及不同的结构设计来生产能够合适地覆盖任意表面的柔性压力传感器。此外，高性能柔性压力传感器已针对不同的应用需求进行了设计。例如，已经基于压电纳米线（NWs）实现了高分辨率的柔性压力传感器阵列；同时，基于裂纹的压力传感器结构极其简单，对微小压力具有很高的灵敏度，例如声音和生理信号。为了更广泛的应用，正在开发具有温度，湿度和其他刺激感测能力的柔性压力传感器，以模仿人体皮肤的体感系统。近年来，随着具有自供电，自修复和可生物降解能力的新型传感器的出现，新型柔性压力传感器的发展迅速发展。在这里，我们对最新的柔性压力传感器进行全面的描述，然后提出将柔性压力传感器集成在一起的高灵敏度，高分辨率，快速响应，良好的可拉伸性和广泛的检测范围的潜在前景，从而进一步丰富柔性压力的多功能性传感器。正在开发具有温度，湿度和其他刺激感测能力的柔性压力传感器，以模仿人体皮肤的体感系统。近年来，随着具有自供电，自修复和可生物降解能力的新型传感器的出现，新型柔性压力传感器的发展迅速发展。在这里，我们对最新的柔性压力传感器进行全面的描述，然后提出将柔性压力传感器集成在一起的高灵敏度，高分辨率，快速响应，良好的可拉伸性和广泛的检测范围的潜在前景，从而进一步丰富柔性压力的多功能性传感器。正在开发具有温度，湿度和其他刺激感测能力的柔性压力传感器，以模仿人体皮肤的体感系统。近年来，随着具有自供电，自修复和可生物降解能力的新型传感器的出现，新型柔性压力传感器的发展迅速发展。在这里，我们对最新的柔性压力传感器进行全面的描述，然后提出将柔性压力传感器集成在一起的高灵敏度，高分辨率，快速响应，良好的可拉伸性和广泛的检测范围的潜在前景，从而进一步丰富柔性压力的多功能性传感器。新型柔性压力传感器的发展已经蓬勃发展，而新型传感器具有自供电，自修复和可生物降解的能力。在这里，我们对最新的柔性压力传感器进行全面的描述，然后提出将柔性压力传感器集成在一起的高灵敏度，高分辨率，快速响应，良好的可拉伸性和广泛的检测范围的潜在前景，从而进一步丰富柔性压力的多功能性传感器。新型柔性压力传感器的发展已经蓬勃发展，而新型传感器具有自供电，自修复和可生物降解的能力。在这里，我们对最新的柔性压力传感器进行全面的描述，然后提出将柔性压力传感器集成在一起的高灵敏度，高分辨率，快速响应，良好的可拉伸性和广泛的检测范围的潜在前景，从而进一步丰富柔性压力的多功能性传感器。

更新日期：2018-08-17

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