期刊
MATERIALS
卷 15, 期 13, 页码 -出版社
MDPI
DOI: 10.3390/ma15134461
关键词
PANI/MnO2 composite; carbon steel; thermoelectric device; electrochemical techniques; cement-based materials
类别
资金
- Science Foundation of the Nanjing Institute of Technology [YKJ201929]
- Natural Science Foundation of the Jiangsu Higher Education Institutions of China [20KJB560005]
- National Science Foundation of China [51525903, 51808369, 52078247]
Researchers developed a thermoelectric device using PANI/MnO2 composite in cement-based material, which showed improved electrical conductivity and Seebeck coefficient. The device effectively protected carbon steel from corrosion in alkaline chloride solution.
The thermoelectric cement-based materials can convert heat into electricity; this makes them promising candidates for impressed current cathodic protection of carbon steel. However, attempts to use the thermoelectric cement-based materials for energy conversion usually results in low conversion efficiency, because of the low electrical conductivity and Seebeck coefficient. Herein, we deposited polyaniline on the surface of MnO2 and fabricated a cement-based thermoelectric device with added PANI/MnO2 composite for the protection of carbon steel in alkaline chloride solution. The nanorod structure (70 similar to 80 nm in diameter) and evenly dispersed conductive PANI provide the PANI/MnO2 composite with good electrical conductivity (1.9 +/- 0.03 S/cm) and Seebeck coefficient (-7.71 x 10(3) +/- 50 mu V/K) and, thereby, increase the Seebeck coefficient of cement-based materials to -2.02 x 10(3) +/- 40 mu V/K and the electrical conductivity of cement-based materials to 0.015 +/- 0.0003 S/cm. Based on this, the corrosion of the carbon steel was delayed after cathodic protection, which was demonstrated by the electrochemical experiment results, such as the increased resistance of the carbon steel surface from 5.16 x 10(2) Omega.cm(2) to 5.14 x 10(4) Omega.cm(2), increased charge transfer resistance from 11.4 k Omega.cm(2) to 1.98 x 10(6) k Omega.cm(2), and the decreased corrosion current density from 1.67 mu A/cm(2) to 0.32 mu A/cm(2), underlining the role of anti-corrosion of the PANI/MnO2 composite in the cathodic protection system.
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