Flexible and multifunctional electronics fabricated by a solvent-free and user-friendly method
Article
Article Title | Flexible and multifunctional electronics fabricated by a solvent-free and user-friendly method |
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ERA Journal ID | 201472 |
Article Category | Article |
Authors | Dinh, Toan (Author), Phan, Hoang-Phuong (Author), Qamar, Afzaal (Author), Nguyen, Nam-Trung (Author) and Dao, Dzung Viet (Author) |
Journal Title | RSC Advances: an international journal to further the chemical sciences |
Journal Citation | 6 (81), pp. 77267-77274 |
Number of Pages | 8 |
Year | 2016 |
Publisher | The Royal Society of Chemistry |
Place of Publication | United Kingdom |
ISSN | 2046-2069 |
Digital Object Identifier (DOI) | https://doi.org/10.1039/c6ra14646e |
Web Address (URL) | https://pubs.rsc.org/en/content/articlelanding/2016/RA/C6RA14646E#!divAbstract |
Abstract | Flexible and multifunctional electronic devices have been proven to show potential for various applications including human-motion detection and wearable thermal therapy. The key advantages of these systems are (1) highly stable, sensitive and fast-response devices, (2) fabrication of macroscale devices on flexible substrates, and (3) integrated (lab-on-chip) and multifunctional devices. However, their fabrication commonly requires toxic solvents, as well as time-consuming and complex processes. Here, we demonstrate the low-cost, rapid-prototyping and user-friendly fabrication of flexible transducers using recyclable, water-resistant poly(vinyl chloride) films as a substrate, and ubiquitously available pencil graphite as a functional layer without using any toxic solvents or additional catalysts. The flexible heaters showed good characteristics such as fast thermal response, good thermostability (low temperature coefficient of resistance) and low power consumption. The heaters with their capability of perceiving human motion were shown to be effective. The proof of concept of other functional devices such as vibration-based droplet sensors and drag-force air flow sensors was also demonstrated. Results from this study indicate that a wide range of electronic devices fabricated from the environmental-friendly material by this simple and user-friendly approach could be utilized for cost-effective, flexible and low power consuming thermal therapy, health monitoring systems and other real-time monitoring devices without using any toxic chemicals or advanced processes. |
Keywords | Wearable electronics; strain sensors; pencil-drawn; hybrid structure; paper; transparent; graphite; devices; nanocomposite; silicon |
ANZSRC Field of Research 2020 | 401705. Microelectromechanical systems (MEMS) |
Byline Affiliations | Griffith University |
Open access url | https://pubs.rsc.org/en/content/articlelanding/2016/RA/C6RA14646E#!divAbstract |
Institution of Origin | University of Southern Queensland |
https://research.usq.edu.au/item/q5q4q/flexible-and-multifunctional-electronics-fabricated-by-a-solvent-free-and-user-friendly-method
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