All Paper‐Based, Multilayered, Inkjet‐Printed Tactile Sensor in Wide Pressure Detection Range with High Sensitivity

Tae Hoon Lee; Yunsung Kang; Kwanhun Kim; Sangjun Sim; Kyubin Bae; Yeunjun Kwak; Wonkeun Park; Min-Hyeong Kim; Jongbaeg Kim

doi:https://doi.org/10.1002/admt.202100428

doi.org/10.1002/admt.202100428

All Paper‐Based, Multilayered, Inkjet‐Printed Tactile Sensor in Wide Pressure Detection Range with High Sensitivity

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,

..., Jongbaeg Kim

31

Advanced Materials Technologies6.80

Volume: 7, Issue: 2

Published: Aug 22, 2021

Abstract

Paper has attracted considerable interest as a promising pressure‐sensing element owing to its foldability/bendability and deformability due to its high porosity. However, paper‐based tactile sensors reported hitherto cannot achieve high sensitivity and a wide sensing range simultaneously. In this study, a resistive tactile sensor using carbon nanotube‐ and silver nanoparticle‐printed mulberry paper as a pressure‐sensing element and electrodes,...

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Paper Details

Title

All Paper‐Based, Multilayered, Inkjet‐Printed Tactile Sensor in Wide Pressure Detection Range with High Sensitivity

DOI

doi.org/10.1002/admt.202100428

Published Date

Aug 22, 2021

Journal

Advanced Materials Technologies

Volume

7

Issue

2

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