4.7 Article

Highly sensitive flexible strain and temperature sensors using solution processed graphene palladium nanocomposite

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SENSORS AND ACTUATORS A-PHYSICAL
卷 334, 期 -, 页码 -

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ELSEVIER SCIENCE SA
DOI: 10.1016/j.sna.2021.113314

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Flexible sensors; Strain; Load cell; Temperature

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This work presents highly sensitive and flexible strain sensors for load cell applications, as well as a temperature sensor with a tunable TCR. The sensors are made of solution-processed rGO and Pd nanocomposite, and the strain sensor is encapsulated with a PDMS substrate for flexibility and moisture protection. The strain sensor shows excellent performance with a wide strain range, fast response time, and high durability. A binocular load cell is designed and simulated, and the load cell exhibits stable, linear, and repeatable responses with good sensitivity and resolution. The nanocomposite is also investigated for temperature sensing, and the temperature sensor demonstrates good sensitivity and linearity with adjustable NTC and PTC characteristics based on the composition of rGO and Pd NPs.
This work reports highly sensitive, flexible, and fast response strain sensors for load cell application and a temperature sensor with a tunable temperature coefficient of resistance (TCR). The proposed sensors are fabricated with solution-processed reduced graphene oxide (rGO) and Palladium (Pd) nanocomposite. The strain sensor is encapsulated with a Polydimethylsiloxane (PDMS) substrate to ensure flexibility and moisture protection. The strain sensor's performance was studied; the gauge factor was calculated as ~22 to ~198 in the strain range of 0.05-0.625%. The sensor exhibited high durability beyond 1000 cycles, fast response (~39 ms). A binocular type of load cell was designed and simulated using COMSOL Multiphysics software to study the strain profiles under applied load conditions. The designed load cell was tested with a micro universal test machine (UTM) for different loads. Its response was stable, linear, and repeatable with a sensitivity of 23.52 mV/V/Kg and a resolution of 0.0085 Kg/mV at an excitation of 5 V. Additionally, the nanocomposite was investigated for temperature response with different ratios of rGO-Pd and tuned the TCR of the sensor. The temperature sensor displayed good sensitivity and linearity with both negative temperature coefficient (NTC) and positive temperature coefficient (PTC) depending on rGO and Pd nano-particles (NPs) composition.(c) 2021 Elsevier B.V. All rights reserved.

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