High sensitivity microcrack hydroxylated MWCNT/Ecoflex composite flexible strain sensors based on proton irradiation engineering

Yue, Xiaoqing; Yang, Jinlong; Dong, Lu; Wang, Xuewen; Jing, Yuhang; Li, Weiqi; Li, Xingji

doi:10.1039/d3nj01106b

Cited by 2 publications

(1 citation statement)

References 40 publications

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“…Further comparison among different fabrication techniques has been tabulated in Table 3. There are also some unconventional techniques in the development phase and have shown promising results for fabricating piezoresistive sensors such as, electrohydrodynamic jet printing, 72 mechanical micromachining, 300 cryogenic machining to manufacture microchannels directly on the polymers, 301 electron, 302 and proton irradiation defect engineering 303 …”

Section: Fabrication Techniquesmentioning

confidence: 99%

Recent developments in stretchable and flexible tactile sensors towards piezoresistive systems: A review

Saxena,

Patra

2023

Polymers for Advanced Techs

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Stretchable and flexible piezoresistive sensors (SFPSs) can detect mechanical stimuli in terms of electrical response and provide adaptability to use with complex surfaces, whether stationary or moving. Its stretchable and flexible nature makes it ideal for detecting large strains, localized pressure, bending, and twisting. SFPSs can detect pressure and strain in a broad range. SFPSs have ease of manufacturing, high sensitivity, better durability, easy processing, and economic development. These qualities of SFPSs can open a wide range of application possibilities, such as healthcare, human motion detection, a safe environment to interact with robots, automation, and soft robotics. The discussion in this article starts from the sensing mechanism, design development over the years, a variety of materials used for substrates and to provide conductivity to the sensors, fabrication processes explored and developed, enhancement in the performance characteristics, to have future directions. Over the last decades, exponential development has occurred in SFPSs systems based on design mechanisms, materials used, and fabrication techniques, even though several technological and design challenges remain undetermined and bear decisive interdisciplinary intervention to address them.

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Section: Fabrication Techniquesmentioning

confidence: 99%

Recent developments in stretchable and flexible tactile sensors towards piezoresistive systems: A review

Saxena,

Patra

2023

Polymers for Advanced Techs

View full text Add to dashboard Cite

show abstract

Breathable and waterproof conductive cotton fabric pressure sensor with distinguished electrothermal and electromagnetic interference shielding performances

Wang,

Xing,

Yin

et al. 2024

Applied Materials Today

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High sensitivity microcrack hydroxylated MWCNT/Ecoflex composite flexible strain sensors based on proton irradiation engineering

Abstract: A simple and efficient microcrack technique opens up a new prospect for the fabrication of high-performance stretchable strain sensors.

Cited by 2 publications

References 40 publications

Recent developments in stretchable and flexible tactile sensors towards piezoresistive systems: A review

Recent developments in stretchable and flexible tactile sensors towards piezoresistive systems: A review

Breathable and waterproof conductive cotton fabric pressure sensor with distinguished electrothermal and electromagnetic interference shielding performances

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