Effect of Vibrations, Displacement, Pressure, Temperature and Humidity on the Resistance and Impedance of the Shockproof Resistors Based on Rubber and Jelly (NiPc-CNT-Oil) Composites

Here, we present the design, fabrication and characterization of shockproof rubber-jelly (NiPc-CNT-oil) composite-based resistors. To fabricate the resistors, gels of CNT and NiPc with edible oil were prepared and deposited on a flexible rubber substrate using rubbing-in technique. The devices'...

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Bibliographic Details
Published in:Gels 2022-04, Vol.8 (4), p.226
Main Authors: Chani, Muhammad Tariq Saeed, Karimov, Khasan S, Asiri, Abdullah M, Rahman, Mohammed M, Kamal, Tahseen
Format: Article
Language:English
Subjects:
Carbon
Displacement
edible oil
Electric properties
Electronic devices
flexible devices
Gels
Graphene
Humidity
Impedance
Investigations
Metals
nickel phthalocyanine
Organic materials
organic semiconductor
Polymers
Pressure effects
Radiation
resistor
Resistors
Rubber
Rubbing
Sensors
Substrates
Vibration effects
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Summary:Here, we present the design, fabrication and characterization of shockproof rubber-jelly (NiPc-CNT-oil) composite-based resistors. To fabricate the resistors, gels of CNT and NiPc with edible oil were prepared and deposited on a flexible rubber substrate using rubbing-in technique. The devices' resistance and impedance were investigated under the effect of pressure, displacement, humidity, temperature and mechanical vibrations. The resistance and the impedance decreased, on average, by 1.08 times under the effect of pressure (up to 850 gf/cm ) and by 1.04 times under the effect of displacement (up to 50 µm). Accordingly, upon increasing the humidity from 60% to 90% RH, the resistance and impedance decreased by up to 1.04 times, while upon increasing the temperature from 25 °C to 43 °C, the resistance and impedances also decreased by up to 1.05 times. Moreover, under the effect of vibration, a decrease in resistance and impedance, by up to 1.03 times, was observed. The investigated samples can potentially be used as prototypes for the development of shockproof jelly electronic-based devices in particular resistors. The technological achievement in the fabrication of these devices is the use of edible organic oil, which allows for the fabrication of uniform jelly films of organic materials that cannot be realized simply by mixing "dry" ingredients. Especially, we highlight that edible organic oil is environmentally friendly, unlike some other inorganic oils that are used in practice.
ISSN:2310-2861
2310-2861
DOI:10.3390/gels8040226