期刊
CHEMICAL ENGINEERING JOURNAL
卷 432, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2021.134431
关键词
Polyimide; Composites; Nano-silver; Sinter; Flexible sensor; Thermal properties; Electrically
资金
- National Natural Science Foundation of China [21905082]
- Natural Science Foundation of Heilongjiang Province, China [TD2020E003]
This work investigates a flexible resistive strain sensor with a three-layer structure that combines the advantages of silver nanomixes and silver microflakes, exhibiting high temperature resistance, high thermal conductivity, and high sensitivity, suitable for use in extreme environments.
With the rapid development of the aerospace, military, electronics, electric power, automotive, and other fields, flexible sensors with high temperature resistance and good thermal conductivity are increasingly in demand. These sensors need to be highly reliable and maintain resistance to heat, humidity, and physical shock so that their terminal units can withstand extreme environments. In this context, conductive adhesives have attracted considerable interest due to their unparalleled potential for the development of high-temperature flexible sensors and power electronics. In this work, a three-layer structure containing silver nanomixes (Ag-NMs), silver microflakes (Ag-MFs), and polyimide (PI) layers was prepared for use in flexible resistive strain sensor by combining the high electrical and thermal conductivity of sintered nano-silver and the flexibility of micron silver using a 3D printing strategy. This resistive strain sensor exhibits low volume resistivity (1.37 x 10(-5) Omega.cm), high thermal conductivity (39 W.m(-1).K-1), high temperature resistance (capable of stable operation at 250 degrees C), high sensitivity (Delta R/R-0 values of up to 0.43 and 0.45 after bending to 100 degrees at 25 degrees C and 250 degrees C, respectively; Delta R/R-0 values of up to 0.31 and 0.18 after stretching 2.5% at 25 degrees C and 250 degrees C, respectively), and low fatigue after 1000 load-unload cycles. The Ag-NMs/Ag-MFs/PI flexible resistive strain sensor effectively operates at temperatures up to 250 degrees C for long periods of time, showing great promise for application in harsh environments.
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