Synergistic effect of the mesoporosity-turbostratic carbon on the six-fold piezoresistivity improvement of pristine polymer derived SiC pyrolyzed at high temperature

Abstract

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This study reports the effect of the pyrolysis temperature on improving the piezoresistive property of pristine polymer derived SiC ceramics. Pyrolyzing the PDC SiC at 1600 ​°C improved the gauge factor by a factor of 6. Microstructural investigations demonstrated the formation of a network of turbostratic carbons above 1500 ​°C. The nitrogen (N2) adsorption isotherm demonstrates the presence of a mesoporous structure for 1600 ​°C, whereas lower temperature SiC showed microporosity. The improved piezoresistivity can be attributed to the tubostratic network, mesoporosity and tortuosity generated due to high pyrolysis temperature enabling tunneling-percolation mechanism with the incremental loading. The results provide new insights in designing PDC materials with improved piezoresistive performance.

Keywords

• Pristine polymer derived SiC
• Piezoresistance
• Turbostratic carbon
• Mesoporosity
• Tortuosity
• Tunneling percolation mechanism