The use of complex impedance spectroscopy measurements for improving strain sensor performance.

dc.contributor.authorMapa, Ludmila Marotta
dc.contributor.authorGolin, Alana Fernandes
dc.contributor.authorCosta, Cleidinéia Cavalcante da
dc.contributor.authorBianchi, Rodrigo Fernando
dc.date.accessioned2020-08-13T19:50:02Z
dc.date.available2020-08-13T19:50:02Z
dc.date.issued2019
dc.description.abstractUltrasensitive strain sensors have significant practical application in human-motion detection. However, there is still a challenge for developing strain sensors that are capable of detecting high strain and a high gauge factor (GF). The aim of this study was to investigate whether a semiconducting polymer and AC measurements are able to improve the GF of stretchable sensors. We employed complex impedance spectroscopy measurements to adjust the optimal operating frequency and the impedance component for improving the device performance of a polyaniline film on a flexible poly(vinyl chloride):diisononyl phthalate sub-strate. In the DC regime,the sensor revealed linearity and GF ∼18 at 46% strain. oreover,the frequency of 100 Hz corresponds to the ideal work re- gion to operate the device that unifies sensitivity and linearity, as well as to directly correlate GF and Z∗(100) data. The most surprising correlation is with GF from Z”(100), i.e. GF”(100), which is about 9 times higher than GF (DC regime) at 46% strain. The ColeDavidson approach is developed, in which Z’(f) and Z”(f) are calculated as functions of tensile stress. This model provides the correlation between GF”(100) and the electrical resistance and capacitance of the device, as well as the charge-carrier hopping distance dependence on the tensile stress.pt_BR
dc.identifier.citationMAPA, L. M. et al. The use of complex impedance spectroscopy measurements for improving strain sensor performance. Sensors and Actuators A-Physical, v. 293, p. 101-107, jul. 2019. Disponível em: <https://www.sciencedirect.com/science/article/abs/pii/S0924424718314419>. Acesso em: 03 jul. 2020.pt_BR
dc.identifier.doihttps://doi.org/10.1016/j.sna.2019.02.001pt_BR
dc.identifier.issn0924-4247
dc.identifier.urihttp://www.repositorio.ufop.br/handle/123456789/12595
dc.identifier.uri2https://www.sciencedirect.com/science/article/abs/pii/S0924424718314419pt_BR
dc.language.isoen_USpt_BR
dc.rightsrestritopt_BR
dc.subjectNanometer materialpt_BR
dc.subjectScreen-printable devicept_BR
dc.subjectBiosensorpt_BR
dc.subjectAlter-nating conductivitypt_BR
dc.subjectDesign optimizationpt_BR
dc.titleThe use of complex impedance spectroscopy measurements for improving strain sensor performance.pt_BR
dc.typeArtigo publicado em periodicopt_BR

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