Highly Dispersible and Stable Carbon Nanotube Ink with Silicone Elastomer for Piezoresistive Sensing
Hyun Jae Lee, Justin Rejimone, Simon S. Park, Keekyoung Kim

TL;DR
A new carbon nanotube ink with silicone elastomer is developed for flexible electronics, offering stability, conductivity, and compatibility with printing techniques.
Contribution
A stable, dispersible CNT ink using silicone elastomer and IPA, with prolonged chemical stability and optimized mechanical and electrical properties.
Findings
The CNT ink maintains stability for months in a hermetic environment.
The ink exhibits high sensitivity and repeatability in piezoresistive sensing.
CNT concentration affects viscosity and entanglement in the elastomer.
Abstract
An alternative conductive ink based on carbon nanotubes (CNTs) was developed using a platinum-catalyzed silicone elastomer and isopropyl alcohol (IPA). The inclusion of IPA in the conductive CNT ink facilitated the optimization of its mechanical strength, electrical conductivity, and viscosity. Compared to conventional silicone rubber-based conductive polymers that often solidify in a few hours at room temperature or with heating, this liquid composite of CNT particles and IPA exhibited a prolonged duration of up to several months in a hermetic environment, maintaining chemical stability even with the elastomer and its curing agent. The gradual evaporation of IPA initiates a well-known cross-linking process, leading to stretchability and electrical conductivity derived from the silicone elastomer and CNT particles, respectively. The relationship between the mechanical strength and…
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Taxonomy
TopicsAdvanced Sensor and Energy Harvesting Materials · Nanomaterials and Printing Technologies · Electrospun Nanofibers in Biomedical Applications
