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3D printing of highly conductive nanocomposites for the functional optimization of liquid sensors

Kambiz Chizari, Mohamed Amine Daoud, Anil Raj Ravindran, Daniel Therriault

Article (2016)

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Abstract

The utilization of 3D printing of highly conductive (σ ≈ 2350 S m−1) polymer composite structures for the functional optimization of scaffold-shaped liquid sensors is demonstrated. This study can open the pathway of the application of 3D printing of conductive composites for optimization of structures useful for various applications such as smart sensors in textile or in the field of electronics.
Subjects: 1700 Design and manufacturing > 1702 Advanced manufacturing
2000 Materials science and technology > 2007 Composites
2100 Mechanical engineering > 2100 Mechanical engineering
Department: Department of Mechanical Engineering
Research Center: LM2 - Laboratory for Multi-scale Mechanics
CREPEC - Center for Applied Research on Polymers and Composites
Funders: CRSNG/NSERC
PolyPublie URL: https://publications.polymtl.ca/10414/
Journal Title: Small (vol. 12, no. 44)
Publisher: Wiley
DOI: 10.1002/smll.201601695
Official URL: https://doi.org/10.1002/smll.201601695
Date Deposited: 03 Aug 2022 10:44
Last Modified: 15 Nov 2022 21:35
Cite in APA 7: Chizari, K., Daoud, M. A., Ravindran, A. R., & Therriault, D. (2016). 3D printing of highly conductive nanocomposites for the functional optimization of liquid sensors. Small, 12(44), 6076-6082. https://doi.org/10.1002/smll.201601695

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