Serpentine-pattern effects on the biaxial stretching of percolative graphene nanoflake films

Sungwoo Chun, Sung Beom Cho, Wonkyeong Son, Younghoon Kim, Hachul Jung, Young Jin Kim, Changsoon Choi

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

Stretchable strain sensors based on percolative arrangements of conducting nanoparticles are essential tools in stretchable electronics and have achieved outstanding performance. Introducing serpentine patterns for strain-sensing materials is a very effective method for enhancing stretchability with a quantified structural resistance through a simple, reliable, and facile approach. Here, we investigate serpentine-pattern effects in the electrical responses to biaxial stretching for percolative graphene-nanoparticle films. Graphene nanoplatelet films are applied to a stretchable substrate using a facile spray-coating technique, for a variety of serpentine pattern shapes, aspect ratios, pattern frequencies, and number of coatings. The electrical responses after applying biaxial stretching (x-Axis and y-Axis) are measured and analyzed for comparison. The serpentine patterns that would be suitable for stretchable electrodes, sensitive sensors, and highly stretchable sensors are then identified. This work demonstrates the advantage of using serpentine patterns for stretchable strain sensors and offers guidelines for selecting suitable pattern types for strain sensors in stretchable-electronics applications.

Original languageEnglish
Article number085303
JournalNanotechnology
Volume31
Issue number8
DOIs
StatePublished - 2020
Externally publishedYes

Keywords

  • graphene
  • graphene nanoflakes
  • graphene sensors
  • serpentine
  • strain sensors

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