2021
DOI: 10.1002/adem.202100832
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Silver Nanotube Networks with Ultrahigh Strain Limit as Reliable Flexible Transparent Electrode and Tactile Sensor

Abstract: Durable and extremely deformable electrodes play a significant role in the field of high‐strain flexible electronics, including wearable electronics and flexible tactile sensor. However, the existing flexible transparent electrodes hardly have a high strain limit and low square resistance simultaneously, like the combination of carbon‐based electrodes and metal electrodes. Herein, a semicovered silver nanotube (SC‐AgNT) network electrode is proposed. The SC‐AgNT network electrode consists of semicovered polyme… Show more

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Cited by 6 publications
(5 citation statements)
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References 39 publications
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“…The strain sensor can respond in 0.15 s. Even a tiny strain of 0.1% can be detected, enabling the collection of subtle physiological signals. In addition, some studies have also achieved high strain limit (a maximum twist angle of 120 • and a minimum bending radius of 0.1 mm) and low sheet resistance (0.9 Ω sheet resistance with 84% light transmittance) for tactile sensors fabricated by depositing a silver layer on the surface of polyvinyl alcohol NFs [208]. This further confirms the feasibility of this scheme.…”
Section: Flexible Sensorssupporting
confidence: 55%
“…The strain sensor can respond in 0.15 s. Even a tiny strain of 0.1% can be detected, enabling the collection of subtle physiological signals. In addition, some studies have also achieved high strain limit (a maximum twist angle of 120 • and a minimum bending radius of 0.1 mm) and low sheet resistance (0.9 Ω sheet resistance with 84% light transmittance) for tactile sensors fabricated by depositing a silver layer on the surface of polyvinyl alcohol NFs [208]. This further confirms the feasibility of this scheme.…”
Section: Flexible Sensorssupporting
confidence: 55%
“…[ 97 , 177 , 208 ] The detection of human movements for human healthcare monitoring is another common use of tactile sensors. In this instance, the new triboelectric sensors [ 198 , 206 ] are used in addition to resistive [ 9 , 188 , 263 ] and capacitive [ 264 ] ones.…”
Section: Applicationsmentioning
confidence: 99%
“…Various types of flexible strain sensors have been developed, including resistive sensors, 12,13 capacitive sensors, 14 friction sensors, 15 and piezoelectric sensors. 16 Among them, flexible resistive strain sensors are particularly desirable because of their simple structure and high sensing performance.…”
Section: Introductionmentioning
confidence: 99%