Natural bamboo leaves as dielectric layers for flexible capacitive pressure sensors with adjustable sensitivity and a broad detection range

Abstract: Capacitive pressure sensors based on bamboo leaves endow adjustable sensitivity, wide working range and remarkable stability, indicating promising applications in diverse application scenarios.

“…[42] On the other hand, human motion detection, such as finger bending, [27] voice recognition, [52] eye blinking, [42] and arm bending [103] was successfully demonstrated with the flexible pressure sensors, as displayed in Figure 12d-g. Furthermore, similar human motion detection was also detected with the AgNW based pressure sensors fabricated by Yao and Zhu [90] Cicek et al, [49] Li et al, [44] Nie et al, [56] Liu et al, [55] and Che et al [94] However, there is an uncertainty about long terms stability of the pressure sensors at daily working conditions, which needs more research and exploration in the future. [24]…”

“…[22] However, utilization of thin films of PMMA, PVP, PVDF and PI as well as commercial films including Parafilm, 3M VHB and cellulose tape were additionally demonstrated. [23,25,48,[52][53][54] Natural materials such as bamboo leaf [55] and dried rose petal [46] have-on the other hand-been employed owing to their microstructured form and biodegradability. To increase the sensitivity, porous dielectric materials like melamine sponge [49] and nanofiber membrane, [26] and ionic dielectric materials [42,56] were also investigated.…”

“…In addition, another approach for preparation of flexible electrode was shown via coating and transferring the AgNWs onto the PDMS substrate via vacuum filtration process. [55] Recently, Tang et al demonstrated flexible electrode fabrication via depositing the AgNWs on transparent wood film by Meyer rod coating. [45] The electrode microstructure and the ultimate flexible sensor is exhibited in Figure 3d,e.…”

“…Reproduced with permission. [55] Copyright 2021, Royal Society of Chemistry. layers is depicted in Figure 10a.…”

Recent Advances in Silver Nanowire Based Flexible Capacitive Pressure Sensors: From Structure, Fabrication to Emerging Applications

“…[42] On the other hand, human motion detection, such as finger bending, [27] voice recognition, [52] eye blinking, [42] and arm bending [103] was successfully demonstrated with the flexible pressure sensors, as displayed in Figure 12d-g. Furthermore, similar human motion detection was also detected with the AgNW based pressure sensors fabricated by Yao and Zhu [90] Cicek et al, [49] Li et al, [44] Nie et al, [56] Liu et al, [55] and Che et al [94] However, there is an uncertainty about long terms stability of the pressure sensors at daily working conditions, which needs more research and exploration in the future. [24]…”

“…[22] However, utilization of thin films of PMMA, PVP, PVDF and PI as well as commercial films including Parafilm, 3M VHB and cellulose tape were additionally demonstrated. [23,25,48,[52][53][54] Natural materials such as bamboo leaf [55] and dried rose petal [46] have-on the other hand-been employed owing to their microstructured form and biodegradability. To increase the sensitivity, porous dielectric materials like melamine sponge [49] and nanofiber membrane, [26] and ionic dielectric materials [42,56] were also investigated.…”

“…In addition, another approach for preparation of flexible electrode was shown via coating and transferring the AgNWs onto the PDMS substrate via vacuum filtration process. [55] Recently, Tang et al demonstrated flexible electrode fabrication via depositing the AgNWs on transparent wood film by Meyer rod coating. [45] The electrode microstructure and the ultimate flexible sensor is exhibited in Figure 3d,e.…”

“…Reproduced with permission. [55] Copyright 2021, Royal Society of Chemistry. layers is depicted in Figure 10a.…”

Recent Advances in Silver Nanowire Based Flexible Capacitive Pressure Sensors: From Structure, Fabrication to Emerging Applications

“…Typical pressure sensors include piezoelectric sensors, 16,17 piezoresistive sensors, 18,19 and capacitive sensors. [20][21][22] Out of these sensors, the piezoelectric sensor can achieve high sensitivity, but its output direct current response is poor. The piezoresistive sensor is made up of low-cost sensing materials, which are not environmentally friendly.…”

A wearable and high-performance capacitive pressure sensor based on a biocompatible PVP nanofiber membrane via electrospinning and UV treatment

Recent Advances in Flexible Pressure Sensors Based on MXene Materials