Biodegradable Carrageenan-Based Force Sensor: An Experimental Approach

Žaimis, Uldis; Petronienė, Jūratė Jolanta; Dzedzickis, Andrius; Bučinskas, Vytautas

doi:10.3390/s23239423

Sensors

2023

DOI: 10.3390/s23239423

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Biodegradable Carrageenan-Based Force Sensor: An Experimental Approach

Uldis Žaimis,

Jūratė Jolanta Petronienė,

Andrius Dzedzickis

et al.

Abstract: The development of low-cost biodegradable pressure or force sensors based on a carrageenan and iron (III) oxide mix is a promising way to foster the spread of green technologies in sensing applications. The proposed materials are inexpensive and abundant and are available in large quantities in nature. This paper presents the development and experimental study of carrageenan and iron (III)-oxide-based piezoresistive sensor prototypes and provides their main characteristics. The results show that glycerol is re… Show more

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2024

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Cited by 3 publications

References 70 publications

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Formulation and application assessment of lignin-based biodegradable composite mulching film with emphasis on lignin enhancement

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Simultaneous determination of dopamine and folic acid using chitosan-carrageenan hydrogel/graphene oxide modified glassy carbon electrode

Postolović,

Stanić

2024

Microchemical Journal

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Piezoelectric Behaviour in Biodegradable Carrageenan and Iron (III) Oxide Based Sensor

Bučinskas,

Udris,

Dzedzickis

et al. 2024

Sensors

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This paper is dedicated to the research of phenomena noticed during tests of biodegradable carrageenan-based force and pressure sensors. Peculiar voltage characteristics were noticed during the impact tests. Therefore, the sensors’ responses to impact were researched more thoroughly, defining time-dependent sensor output signals from calibrated energy impact. The research was performed using experimental methods when a free-falling steel ball impacted the sensor material to create relatively definable impact energy. The sensor’s output signal, which is analogue voltage, was registered using an oscilloscope and transmitted to the PC for further analysis. The obtained results showed a very interesting outcome, where the sensor, which was intended to be piezoresistive, demonstrated a combination of behaviour typical for galvanic cells and piezoelectric material. It provides a stable DC output that is sensitive to the applied statical pressure, and in case of a sudden impact, like a hit, it demonstrates piezoelectric behaviour with some particular effects, which are described in the paper as proton transfer in the sensor-sensitive material. Such phenomena and sensor design are a matter of further development and research.

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Biodegradable Carrageenan-Based Force Sensor: An Experimental Approach

Cited by 3 publications

References 70 publications

Formulation and application assessment of lignin-based biodegradable composite mulching film with emphasis on lignin enhancement

Formulation and application assessment of lignin-based biodegradable composite mulching film with emphasis on lignin enhancement

Simultaneous determination of dopamine and folic acid using chitosan-carrageenan hydrogel/graphene oxide modified glassy carbon electrode

Piezoelectric Behaviour in Biodegradable Carrageenan and Iron (III) Oxide Based Sensor

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