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Carbon Nanotubes‐Based 3D Printing Ink for Multifunctional “Artificial Epidermis” with Long‐Term Environmental Stability

Ayinuer Abodurexiti, Xieraili Maimaitiyiming

2022Macromolecular Chemistry and Physics20 citationsDOI

Abstract

Abstract 3D printing is a rapidly developing field because it has been widely used in the rapid design and manufacturing of flexible sensors to meet the needs of complex soft structures and devices. In this study, a composite hydrogel ink composed of polyvinyl alcohol, silk fibroin, conductive polymer, and carbon nanotubes is designed,and using 3D printing technology an “artificial epidermis” with long‐term environment stability and self‐healing ability is created. In addition, the “artificial epidermis” also has the multifunctional characteristics of sensing pressure, strain, temperature, and humidity. It has a wide pressure (0–165 kPa), strain (0–355%), temperature (−20–68 °C) and humidity (45–85%) sensing range and high sensitivity. While detecting the tiny movements of the human body, after self‐healing, the device can fully restore its sensing capabilities and perform accurate human monitoring. Furthermore, it can also monitor changes in temperature and humidity, distinguish between hot and cold water, and perform detection of water droplets. Customized 3D printing of flexible electronic devices has opened up new ways for the biological integration of various sensors in wearable electronic systems and the application of advanced bionic skin.

Topics & Concepts

FibroinMaterials scienceCarbon nanotubeInkwellNanotechnologyHumidityPolyvinyl alcoholPolymerComposite materialSILKThermodynamicsPhysicsAdvanced Sensor and Energy Harvesting MaterialsAdvanced Materials and MechanicsConducting polymers and applications
Carbon Nanotubes‐Based 3D Printing Ink for Multifunctional “Artificial Epidermis” with Long‐Term Environmental Stability | Litcius