Molecules (Mar 2021)

Effect of Viscosity on the Formation of Porous Polydimethylsiloxane for Wearable Device Applications

  • Dong-Hyun Baek,
  • Hachul Jung,
  • Jeong Hun Kim,
  • Young Wook Park,
  • Dae Wook Kim,
  • Ho Seob Kim,
  • Seungjoon Ahn,
  • Young-Jin Kim

DOI
https://doi.org/10.3390/molecules26051471
Journal volume & issue
Vol. 26, no. 5
p. 1471

Abstract

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Medical devices, which enhance the quality of life, have experienced a gradual increase in demand. Various research groups have attempted to incorporate soft materials such as skin into wearable devices. We developed a stretchable substrate with high elasticity by forming a porous structure on polydimethylsiloxane (PDMS). To optimize the porous structure, we propose a manufacturing process that utilizes a high-pressure steam with different viscosities (400, 800, 2100, and 3000 cP) of an uncured PDMS solution. The proposed method simplifies the manufacturing of porous structures and is cost-effective compared to other technologies. Porous structures of various viscosities were formed, and their electrical and mechanical properties evaluated. Porous PDMS (3000 cP) was formed in a sponge-like three-dimensional porous structure, compared to PDMS formed by other viscosities. The elongation of porous PDMS (3000 cP) was increased by up to 30%, and the relative resistance changed to less than 1000 times with the maximum strain test. The relative resistance increased the initial resistance (R0) by approximately 10 times during the 1500-times repeated cycling tests with 30% strain. As a result, patch-type wearable devices based on soft materials can provide an innovative platform that can connect with the human skin for robotics applications and for continuous health monitoring.

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