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- 2017An image segmentation for the measurement of microstructures in ductile cast iron
- 2016Depletion Gilding: An Ancient Method for Surface Enrichment of Gold Alloys
- 2008Fourier optics for polymeric substrates and coating textures analysis
- 2008Mapping Images with the Coherence Length Diagrams
- 2007Thermal electric effects and heat generation in polypyrrole coated PET fabrics
- 2000Role of grain boundaries as phonon diffraction gratings in the theory of thermal conductivitycitations
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document
Thermal electric effects and heat generation in polypyrrole coated PET fabrics
Abstract
Polypyrrole chemically synthesized on PET gives rise to textiles with a high electric conductivity, suitable for several applications from antistatics to electromagnetic interference shielding devices. Here, we discuss investigations on thermal electric performances of the polypyrrole coated PET in a wide range of temperatures above room temperature. The Seebeck coefficient turns out to be comparable with that of metal thermocouple materials. Since polypyrrole shows extremely low thermal diffusivities regardless of the electrical conductivity, the low thermal conductivity gives significant advantage to the thermoelectric figure-of-merit ZT, comparable with that of some traditional inorganic thermoelectric materials. The heat generation is also investigated for possible heating textile devices.