Graphene/PET-based temperature-sensitive conductor with enhanced responsiveness via magnetic induction for resistance-temperature sensors

Graphene/textile stretchable devices have garnered significant attention in the field of flexible wearable smart devices due to their inherent softness, flexibility, scalability, and breathability. In particular, the development of heat dissipation and sensing materials that exhibit efficient heat a...

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Published inColloids and surfaces. A, Physicochemical and engineering aspects Vol. 673; p. 131875
Main Authors Zhi, Yifan, He, Jianlei, Xu, Jiahan, Wei, Yujuan, Xu, Jia, Zhang, Huanxia
Format Journal Article
LanguageEnglish
Published Elsevier B.V 20.09.2023
Subjects
Graphene
Magnetic field-induced
Polyester fabric
Sensor
Thermal management
Thermal management
Polyester fabric
Graphene
Magnetic field-induced
Sensor
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Abstract Graphene/textile stretchable devices have garnered significant attention in the field of flexible wearable smart devices due to their inherent softness, flexibility, scalability, and breathability. In particular, the development of heat dissipation and sensing materials that exhibit efficient heat and electrical transfer properties presents a considerable challenge that requires the creation of a highly continuous graphene network within textile substrates. This study seeks to address this challenge through the oriented of graphene structure via magnetic fields. By inducing a magnetic field and employing a simple impregnation method, graphene is adsorbed in an orderly fashion onto a polyester (PET) substrate. The resulting magnetic reduced graphene oxide-polyester (MrGO-PET) composite material exhibits thermal conductivity values of 5.53 W/mK, 4.1 W/mK and 8.02 W/mK along the XYZ axes respectively and demonstrates stability under 10 heating-cooling cycles. When applied to LED chips for heat dissipation purposes, MrGO-PET achieves lower surface temperatures and broader temperature distribution ranges. Following integration, MrGO-PET serves as a temperature sensor with high sensitivity (TCR = −0.594 ℃-1) and precision (0.1 ℃) within the 25–50 ℃ range while exhibiting fast response times (42 s) within the 36.5–40 ℃ range alongside good heating-cooling cycle stability. Our research represents a valuable attempt to establish enhanced functionality at macroscopic scales for two-dimensional nanomaterials. [Display omitted] •A nanocomposite of MrGO-PET was prepared via magnetic induction.•The thermal conductivity of MrGO-PET composite reaches 5.53 W/mK, 4.1 W/mK and 8.02 W/mK in the XYZ directions, respectively.•The sensor we constructed exhibits high temperature responsiveness and sensitivity.
AbstractList Graphene/textile stretchable devices have garnered significant attention in the field of flexible wearable smart devices due to their inherent softness, flexibility, scalability, and breathability. In particular, the development of heat dissipation and sensing materials that exhibit efficient heat and electrical transfer properties presents a considerable challenge that requires the creation of a highly continuous graphene network within textile substrates. This study seeks to address this challenge through the oriented of graphene structure via magnetic fields. By inducing a magnetic field and employing a simple impregnation method, graphene is adsorbed in an orderly fashion onto a polyester (PET) substrate. The resulting magnetic reduced graphene oxide-polyester (MrGO-PET) composite material exhibits thermal conductivity values of 5.53 W/mK, 4.1 W/mK and 8.02 W/mK along the XYZ axes respectively and demonstrates stability under 10 heating-cooling cycles. When applied to LED chips for heat dissipation purposes, MrGO-PET achieves lower surface temperatures and broader temperature distribution ranges. Following integration, MrGO-PET serves as a temperature sensor with high sensitivity (TCR = −0.594 ℃-1) and precision (0.1 ℃) within the 25–50 ℃ range while exhibiting fast response times (42 s) within the 36.5–40 ℃ range alongside good heating-cooling cycle stability. Our research represents a valuable attempt to establish enhanced functionality at macroscopic scales for two-dimensional nanomaterials. [Display omitted] •A nanocomposite of MrGO-PET was prepared via magnetic induction.•The thermal conductivity of MrGO-PET composite reaches 5.53 W/mK, 4.1 W/mK and 8.02 W/mK in the XYZ directions, respectively.•The sensor we constructed exhibits high temperature responsiveness and sensitivity.
ArticleNumber 131875
Author Xu, Jiahan
Zhang, Huanxia
Wei, Yujuan
Zhi, Yifan
He, Jianlei
Xu, Jia
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Snippet Graphene/textile stretchable devices have garnered significant attention in the field of flexible wearable smart devices due to their inherent softness,...
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StartPage 131875
SubjectTerms Graphene
Magnetic field-induced
Polyester fabric
Sensor
Thermal management
Title Graphene/PET-based temperature-sensitive conductor with enhanced responsiveness via magnetic induction for resistance-temperature sensors
URI https://dx.doi.org/10.1016/j.colsurfa.2023.131875
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