Sheath–Core Graphite/Silk Fiber Made by Dry-Meyer-Rod-Coating for Wearable Strain Sensors

• Published in: ACS applied materials & interfaces Vol. 8; no. 32; pp. 20894 - 20899
• Main Authors: Zhang, Mingchao, Wang, Chunya, Wang, Qi, Jian, Muqiang, Zhang, Yingying
• Format: Journal Article
• Language: English
• Published: United States American Chemical Society 17.08.2016
• Subjects: flexible electronics; silk fiber; strain sensor; graphite flakes; sheath-core structure; dry-Meyer-rod-coating
• ISSN: 1944-8244; 1944-8252
• DOI: 10.1021/acsami.6b06984

Recent years have witnessed the explosive development of flexible strain sensors. Nanomaterials have been widely utilized to fabricate flexible strain sensors, because of their high flexibility and electrical conductivity. However, the fabrication processes for nanomaterials and the subsequent strain sensors are generally complicated and are manufactured at high cost. In this work, we developed a facile dry-Meyer-rod-coating process to fabricate sheath–core-structured single-fiber strain sensors using ultrafine graphite flakes as the sheath and silk fibers as the core by virtue of their flexibility, high production, and low cost. The fabricated strain sensor exhibits a high sensitivity with a gauge factor of 14.5 within wide workable strain range up to 15%, and outstanding stability (up to 3000 cycles). The single-fiber-based strain sensors could be attached to a human body to detect joint motions or easily integrated into the multidirectional strain sensor for monitoring multiaxial strain, showing great potential applications as wearable strain sensors.