2016
DOI: 10.1016/j.compscitech.2015.11.012
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Piezoresistive characterization of multi-walled carbon nanotube-epoxy based flexible strain sensitive films by impedance spectroscopy

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Cited by 122 publications
(98 citation statements)
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References 51 publications
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“…As expected these values are higher than the values previously determined on compression molded plates (1.5 .cm) (Dul et al, 2018b), and on the extruded filaments (4.1 .cm) (Dul et al, 2018a). The increase of resistivity of extruded specimens could be attributed to the higher level of anisotropy and alignment in nanocomposite filaments, with respect to the molded plates where conversely CNT are isotropically distributed, as documented in literature (Georgousis et al, 2015;Sanli et al, 2016;Dul et al, 2018b). Moreover, the processing effect is further evidenced in 3D printed specimens and it is directly attributed to the internal structure of FFF samples.…”
Section: Resultssupporting
confidence: 75%
See 1 more Smart Citation
“…As expected these values are higher than the values previously determined on compression molded plates (1.5 .cm) (Dul et al, 2018b), and on the extruded filaments (4.1 .cm) (Dul et al, 2018a). The increase of resistivity of extruded specimens could be attributed to the higher level of anisotropy and alignment in nanocomposite filaments, with respect to the molded plates where conversely CNT are isotropically distributed, as documented in literature (Georgousis et al, 2015;Sanli et al, 2016;Dul et al, 2018b). Moreover, the processing effect is further evidenced in 3D printed specimens and it is directly attributed to the internal structure of FFF samples.…”
Section: Resultssupporting
confidence: 75%
“…Among these three factors, the first two are most likely the most influential on the electrical resistance upon mechanical deformation (Georgousis et al, 2015). The common matrices used for strain sensor materials can be thermosetting (Ku-Herrera and Avilés, 2012;Moriche et al, 2016b;Sanli et al, 2016), thermoplastics (Georgousis et al, 2015;Bautista-Quijano et al, 2016;Dawoud et al, 2018), and elastomers (Bautista-Quijano et al, 2010Oliva-Avilés et al, 2011;Alsharari et al, 2018;Christ et al, 2019;Kim et al, 2019).…”
Section: Introductionmentioning
confidence: 99%
“…Despite the lack of an experimentally derived thermal conductivity measurement, a ZT value was estimated to be 0.39 and a demonstrator module was made from the composite, producing 2 mV from human body heat. 94 The allotropes of carbon, graphene, and carbon nanotubes have intrinsically favorable electronic properties of interest in the fabrication and optimization of thermoelectric, optoelectronic, 95 piezo electronic 96 and wearable electronic materials. Several studies involving graphene have obtained data with high electrical conductivity and in some cases the potential to reduce the thermal conductivity by phonon scattering.…”
Section: Graphene and Nanocomposite Materialsmentioning
confidence: 99%
“…This viewpoint includes primarily the network effects imposed by the tunnel contacts alongside the percolation system of the CNT solid (bundle or network) . The concept of CNT thin films extends this picture to interactions of the CNT network with its surrounding matrix (indicated by a color change in the surrounding from green for CNT networks to gray for CNT films in Figure ).…”
Section: Cnt Strain Sensor Technologymentioning
confidence: 99%
“…Macroscopic approaches are not capable of testing structures of single CNTs; instead, they focus on the creation of macroscopic structures as films, dog bones, or yarns which are tested using macroscopic tensile testing devices Besides this, substrate bending (as shown in Figure ) and three‐ or four‐point bending setups are discussed as alternatives. Besides such classical approaches, studies are presented in which CNT compounds are directly attached to the human body to sense the action of knees, fingers, and facial muscles—which also strains or bends the substrate.…”
Section: Cnt Strain Sensor Technologymentioning
confidence: 99%