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Characterization of Localized Electrochemical Properties of Si3N4-TiC Ceramic Nanocomposite Using Dual-Electrode Scanning Probes

Published online by Cambridge University Press:  13 June 2014

Bernard Haochih Liu*
Affiliation:
National Cheng Kung University, 1 University Rd., Tainan 701, Taiwan
Jui-Teng Cheng
Affiliation:
National Cheng Kung University, 1 University Rd., Tainan 701, Taiwan
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Abstract

Scanning probe microscopy, having the capability of nano-positioning and nanomanipulation, enables the characterization of material properties at a very small scale. In our previous work, the investigation of localized electrochemical reactions in Si3N4-TiC ceramic nanocomposites had been demonstrated using a single conductive scanning probe in a scanning impedance microscope (SIM). The results have provided experimental evidence that links the relations among microstructural heterogeneity, electrochemical property, and sintering behavior of spark plasma sintered ceramics. This single-probe SIM measurement gave through-body electrochemical information of specific surface feature of interest; however, the characterization of across-surface material properties in nanoscale is still much desired and unavailable.

To further investigate the heterogeneity of materials, we have designed and developed a dual-electrode scanning probe (DESP), which is capable of localized electrochemical characterization across the surface of a material. These probes were designed based on computer simulation and iterations, and fabricated using common semiconductor processing techniques. The span of two probes (electrodes) in our first prototypes was 10∼15 microns, which can be further reduced with optimized parameters. The DESP probes have been evaluated on Si3N4-TiC nanocomposites to demonstrate their functionality in topography scanning and in-situ impedance measurement. The impedance spectroscopy revealed two distinct impedance patterns for measurements across TiC-rich and Si3N4-rich surface regions. The design, fabrication, and evaluation of DESP were discussed in addition to the analysis of Si3N4-TiC nanocomposites.

Type
Articles
Copyright
Copyright © Materials Research Society 2014 

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References

REFERENCES

Su, X.L., Wang, P.L., Chen, W.W., Shen, Z.J., Nygren, M., Cheng, Y.B., Yan, D.S., J Mater Sci , 39 (2004) 62576262.CrossRefGoogle Scholar
Liu, J., Shen, Z.J., Nygren, M., Kan, Y.M., Wang, P.L., Journal of the European Ceramic Society , 26 (2006) 32333239.CrossRefGoogle Scholar
Lee, C.-H., Lu, H.-H., Wang, C.-A., Nayak, P.K., Huang, J.-L., Journal of Alloys and Compounds , 508 (2010) 540545.CrossRefGoogle Scholar
Belmonte, M., Gonzalez-Julian, J., Miranzo, P., Osendi, M.I., Journal of the European Ceramic Society , 30 (2010) 29372946.CrossRefGoogle Scholar
Lee, C.-H., Lu, H.-H., Wang, C.-A., Nayak, P.K., Huang, J.-L., J. Am. Ceram. Soc. , 10 (2011) 15512916.Google Scholar
Liu, B.H., Su, P.-J., Lee, C.-H., Huang, J.-L., Ceramics International , 39 (2013) 42054212.CrossRefGoogle Scholar
Lee, A.C., Su, P.-J., Liu, B.H., Journal of the American Ceramic Society , 96 (2013) 23112315.CrossRefGoogle Scholar
Su, P.-J., Liu, B.H., Thin Solid Films , 529 (2013) 317321.CrossRefGoogle Scholar
Liu, B.H., Chang, D.-B., Ultramicroscopy , 111 (2011) 337341.CrossRefGoogle Scholar