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المؤلفFatima, Noshin
المؤلفKarimov, Khasan S.
المؤلفJamaludin, Farah Adilah
المؤلفAhmad, Zubair
تاريخ الإتاحة2023-10-15T07:46:37Z
تاريخ النشر2023-07-01
اسم المنشورMicromachines
المعرّفhttp://dx.doi.org/10.3390/mi14071358
الاقتباسFatima, N.; Karimov, K.S.; Jamaludin, F.A.; Ahmad, Z. Fabrication and Investigation of Graphite-Flake-Composite-Based Non-Invasive Flex Multi-Functional Force, Acceleration, and Thermal Sensor. Micromachines 2023, 14, 1358. https://doi.org/10.3390/mi14071358
معرّف المصادر الموحدhttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85166212361&origin=inward
معرّف المصادر الموحدhttp://hdl.handle.net/10576/48485
الملخصThis work examines the physics of a non-invasive multi-functional elastic thin-film graphite flake–isoprene sulfone composite sensor. The strain design and electrical characterization of the stretching force, acceleration, and temperature were performed. The rub-in technique was used to fabricate graphite flakes and isoprene sulfone into sensors, which were then analyzed for their morphology using methods such as SEM, AFM, X-ray diffraction, and Fourier transform infrared spectroscopy to examine the device’s surface and structure. Sensor impedance was measured from DC to 200 kHz at up to 20 gf, 20 m/s2, and 26–60 °C. Sensor resistance and impedance to stretching force and acceleration at DC and 200 Hz rose 2.4- and 2.6-fold and 2.01- and 2.06-fold, respectively. Temperature-measuring devices demonstrated 2.65- and 2.8-fold decreases in resistance and impedance at DC and 200 kHz, respectively. First, altering the graphite flake composite particle spacing may modify electronic parameters in the suggested multi-functional sensors under stress and acceleration. Second, the temperature impacts particle and isoprene sulfone properties. Due to their fabrication using an inexpensive deposition technique, these devices are environmentally friendly, are simple to build, and may be used in university research in international poverty-line nations. In scientific laboratories, such devices can be used to teach students how various materials respond to varying environmental circumstances. They may also monitor individuals undergoing physiotherapy and vibrating surfaces in a controlled setting to prevent public health risks.
راعي المشروعThe authors are grateful to UCSI Universiti for funding this research.
اللغةen
الناشرMDPI
الموضوعbiodegradable
carbon compound electronics
environmental education
graphite nanoflakes composite
international poverty line
micro-technology
pollution-free
العنوانFabrication and Investigation of Graphite-Flake-Composite-Based Non-Invasive Flex Multi-Functional Force, Acceleration, and Thermal Sensor
النوعArticle
رقم العدد7
رقم المجلد14
ESSN2072-666X
dc.accessType Open Access


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