Design optimization of a phase-change capacitive sensor for irreversible temperature threshold monitoring and its eco-friendly and wireless implementation Article Swipe

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YOU? · · 2024 · Open Access · · DOI: https://doi.org/10.1016/j.jsamd.2024.100794

Monitoring the temperature of perishable goods during transport and storage is essential to prevent waste and maintain product quality. Exploiting the unique property of phase-change materials (PCM), altering their physical state at specific temperatures, we optimize a capacitive sensor design based on a copper on polyimide interdigitated spiral (IDE) structure coated with a PCM to irreversibly detect temperature thresholds. The effect of the sensor dimensioning on its response is analyzed using a finite element model simulation. The model predicted up to 51% capacitance variation for optimal coverage of the PCM after spreading over the IDE, which was validated experimentally within a 5% error. Two melting concepts utilizing the spreading or the removal of the melted PCM over the IDE are investigated based on a capillary retention mechanism to maintain sensor sensitivity under inclination. Finally, an eco-friendly implementation of the capacitive structure and its wireless operation at 460 MHz is demonstrated on paper with a printed zinc transducer passivated with beeswax and covered with jojoba oil. Melting of the oil at a threshold temperature of 12.3 • C resulted in an irreversible shift in resonance frequency of 14 MHz. This study provides guidelines for the design and implementation of irreversible temperature monitoring capacitive sensors.

Related Topics

Materials Science

Wireless

Environmentally Friendly

Phase (Matter)

Optoelectronics

Nanotechnology

Electrical Engineering

Concepts

Materials science Capacitive sensing Phase change Wireless Environmentally friendly Wireless sensor network Phase (matter) Optoelectronics Nanotechnology Engineering physics Electrical engineering Computer science Telecommunications Engineering Organic chemistry Biology Ecology Computer network Chemistry

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Type: article
Language: en
Landing Page: https://doi.org/10.1016/j.jsamd.2024.100794
OA Status: gold
References: 37
Related Works: 10
OpenAlex ID: https://openalex.org/W4403312117

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DOI: https://doi.org/10.1016/j.jsamd.2024.100794

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Title: Design optimization of a phase-change capacitive sensor for irreversible temperature threshold monitoring and its eco-friendly and wireless implementation

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Language: en

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Publication year: 2024

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Publication date: 2024-10-10

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Authors: James Bourely, D. Briand

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Landing page: https://doi.org/10.1016/j.jsamd.2024.100794

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Concepts: Materials science, Capacitive sensing, Phase change, Wireless, Environmentally friendly, Wireless sensor network, Phase (matter), Optoelectronics, Nanotechnology, Engineering physics, Electrical engineering, Computer science, Telecommunications, Engineering, Organic chemistry, Biology, Ecology, Computer network, Chemistry

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abstract_inverted_index.response	67
abstract_inverted_index.resulted	177
abstract_inverted_index.sensors.	202
abstract_inverted_index.specific	32
abstract_inverted_index.wireless	143
abstract_inverted_index.capillary	124
abstract_inverted_index.essential	11
abstract_inverted_index.frequency	184
abstract_inverted_index.materials	25
abstract_inverted_index.mechanism	126
abstract_inverted_index.operation	144
abstract_inverted_index.polyimide	45
abstract_inverted_index.predicted	78
abstract_inverted_index.resonance	183
abstract_inverted_index.retention	125
abstract_inverted_index.spreading	91, 108
abstract_inverted_index.structure	49, 140
abstract_inverted_index.threshold	171
abstract_inverted_index.transport	7
abstract_inverted_index.utilizing	106
abstract_inverted_index.validated	97
abstract_inverted_index.variation	83
abstract_inverted_index.Exploiting	19
abstract_inverted_index.Monitoring	0
abstract_inverted_index.capacitive	37, 139, 201
abstract_inverted_index.guidelines	191
abstract_inverted_index.monitoring	200
abstract_inverted_index.passivated	157
abstract_inverted_index.perishable	4
abstract_inverted_index.transducer	156
abstract_inverted_index.capacitance	82
abstract_inverted_index.sensitivity	130
abstract_inverted_index.simulation.	75
abstract_inverted_index.temperature	2, 57, 172, 199
abstract_inverted_index.thresholds.	58
abstract_inverted_index.demonstrated	149
abstract_inverted_index.dimensioning	64
abstract_inverted_index.eco-friendly	135
abstract_inverted_index.inclination.	132
abstract_inverted_index.investigated	120
abstract_inverted_index.irreversible	180, 198
abstract_inverted_index.irreversibly	55
abstract_inverted_index.phase-change	24
abstract_inverted_index.temperatures,	33
abstract_inverted_index.experimentally	98
abstract_inverted_index.implementation	136, 196
abstract_inverted_index.interdigitated	46
cited_by_percentile_year
countries_distinct_count	0
institutions_distinct_count	2
citation_normalized_percentile.value	0.24328949
citation_normalized_percentile.is_in_top_1_percent	False
citation_normalized_percentile.is_in_top_10_percent	False