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An in-situ hybrid laser-induced integrated sensor system with antioxidative copper : An <i>in-situ</i> hybrid laser-induced integrated sensor system with antioxidative copper
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- Authors
- Issue Date
- 2024-12
- Publisher
- IOP Publishing
- Citation
- International Journal of Extreme Manufacturing, Vol.6 No.6, p. 065501
- Abstract
- Integration of sensors with engineering thermoplastics allows to track their health and surrounding stimuli. As one of vital backbones to construct sensor systems, copper (Cu) is highly conductive and cost-effective, yet tends to easily oxidize during and after processing. Herein, an in-situ integrated sensor system on engineering thermoplastics via hybrid laser direct writing is proposed, which primarily consists of laser-passivated functional Cu interconnects and laser-induced carbon-based sensors. Through a one-step photothermal treatment, the resulting functional Cu interconnects after reductive sintering and passivation are capable of resisting long-term oxidation failure at high temperatures (up to 170 degrees C) without additional encapsulations. Interfacing with signal processing units, such an all-in-one system is applied for long-term and real-time temperature monitoring. This integrated sensor system with facile laser manufacturing strategies holds potentials for health monitoring and fault diagnosis of advanced equipment such as aircrafts, automobiles, high-speed trains, and medical devices.
- ISSN
- 2631-7990
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