S. Costa scite author profile

S. Costa

3Publications

6Citation Statements Received

0Citation Statements Given

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118

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Federal University of Amazonas

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Temperature Dependence of the Electrical Properties of Na2Ti3O7/Na2Ti6O13/POMA Composites

Costa

Silva²,

Biondo³

et al. 2022

Molecules

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The temperature dependence of the electrical properties of composites formed by biphasic sodium titanate and poly(o-methoxyaniline) (Na2Ti3O7/Na2Ti6O13/POMA) with different concentrations of POMA (0%, 1%, 10%, 15%, 35% and 50%) in the ceramic matrix was determined from measurements of complex impedance. The structural details were studied by means of X-ray diffraction, confirming the formation of the Na2Ti3O7/Na2Ti6O13/POMA composites. The displacement of the (200) reflection from 2θ = 10.45° to 11.15° in the composites with 10 and 15% of POMA suggested the partial replacement of H+ for Na+ in the Na2Ti3O7 structure. The thermal properties were investigated by Thermogravimetry and Differential Thermal Analysis. The Thermogravimetry curves of the composites with POMA content of 1, 10 and 15% presented profiles similar to that of pure sodium titanate sample. The composites with 35 and 50% of POMA showed a process at temperatures around 60–70 °C, which was associated with water absorbed by the polymer. The analysis of the complex impedance spectroscopy measurements revealed that the electrical resistivity of the composites in the range from 0 to 35% increased by two orders of magnitude, with different values for each concentration. This positive temperature coefficient of resistivity was less noticeable in the composite with highest POMA mass content (50%). The rapid increase in resistivity caused an increase in the relaxation time calculated from the time domain. The electrical response of the 50% of POMA compound changes in relation to what was observed in the other compounds, which suggests that there is a saturation limit in the increase in resistivity with POMA content.

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Poly(o-methoxyaniline) Modified by the Biphasic Ceramic System Na2Ti3O7/ Na2Ti6O13

Silva

Costa

Nobre

et al. 2023

J Inorg Organomet Polym

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Synthesis microwave-assisted: fast method to obtain lithium-doped sodium titanate

Melo

Silva

Nobre

et al. 2023

J Mater Sci: Mater Electron

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S. Costa

Temperature Dependence of the Electrical Properties of Na2Ti3O7/Na2Ti6O13/POMA Composites

Poly(o-methoxyaniline) Modified by the Biphasic Ceramic System Na2Ti3O7/ Na2Ti6O13

Synthesis microwave-assisted: fast method to obtain lithium-doped sodium titanate

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