Cost-effective stretchable Ag nanoparticles electrodes fabrication by screen printing for wearable strain sensors

Cost-effective stretchable Ag nanoparticles electrodes fabrication by screen printing for wearable strain sensors

To apply strain sensor as wearable and stretchable electronics, we fabricated cost-effective and stretchable Ag nanoparticle (NP) electrodes on polyurethane (PU) by using simple screen printing. By wavy and horseshoe-type patterning of the Ag NP electrode as a function of line width, we fabricated t...

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Bibliographic Details
Published in:Surface & coatings technology Vol. 384; p. 125308
Main Authors: Yoon, Sunyoung, Kim, Han-Ki
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 25-02-2020
Elsevier BV
Subjects:
Ag nanoparticle
Bend radius
Electrodes
Electronics
Human motion
Light emitting diodes
Motion perception
Nanoparticles
Patterning
Polyurethane
Polyurethane resins
Room temperature
Screen printing
Sensors
Silver
Strain sensors
Stretchability
Stretchable electrodes
Stretchable interconnects
Substrates
Wearable technology
Ag nanoparticle
Stretchable interconnects
Stretchable electrodes
Screen-printing
Polyurethane
Strain sensors
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Description
Summary:To apply strain sensor as wearable and stretchable electronics, we fabricated cost-effective and stretchable Ag nanoparticle (NP) electrodes on polyurethane (PU) by using simple screen printing. By wavy and horseshoe-type patterning of the Ag NP electrode as a function of line width, we fabricated the stretchable electrodes simply, with low sheet resistances of 1.64–2.85 Ohm/square at room temperature. The screen-printed Ag NP electrodes with 3-mm line width showed a constant resistance change until the strain of 20% (wavy pattern) and 15% (horseshoe pattern). The stretchability of 15–20% is relatively small compared with other stretchable materials. Considering inorganic Ag NP electrodes, the stretchability of 15–20% is fairly high and acceptable in fabrication of stretchable electronics. In addition, a very small critical inner and outer bending radius below 1 mm indicates that the screen-printed Ag NP electrodes could also be used as highly flexible electrodes. A possible stretching mechanism was suggested to understand the good flexibility and stretchability of screen-printed Ag NP electrodes on PU substrate. Furthermore, we applied screen-printed Ag NP electrodes as stretchable interconnects for light-emitting diodes and as stretchable electrodes for strain sensors. Successful detection of human motion by wearable strain sensors indicates the potential of Ag NP electrodes as a stretchable electrode for wearable and stretchable sensors. •Cost-effective and stretchable Ag nanoparticle (NP) electrode coated on polyurethane substrate.•Simple, low fabrication costs, and high-speed entire non-vacuum deposition process.•The screen-printed Ag NP electrodes showed a constant resistance change until the strain of 20% (wavy pattern).•The Ag NP based strain sensor showed high response to strain change.
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2019.125308