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Impedance spectroscopy of silicone rubber and vertically-aligned carbon nanotubes composites under tensile strain

Published online by Cambridge University Press:  17 March 2015

Alfredo Gonzatto Neto
Affiliation:
Institute of Science and Technology, Federal University of Sao Paulo, 330 Talim St, Sao Jose dos Campos-SP 12.231-280, Brazil
Erica F. Antunes
Affiliation:
Associated Laboratory of Materials and Sensors, National Institute for Space Research, 1758 Astronautas Av, Sao Jose dos Campos-SP 12.227-010, Brazil.
E. Antonelli
Affiliation:
Institute of Science and Technology, Federal University of Sao Paulo, 330 Talim St, Sao Jose dos Campos-SP 12.231-280, Brazil
V. J. Trava-Airoldi
Affiliation:
Associated Laboratory of Materials and Sensors, National Institute for Space Research, 1758 Astronautas Av, Sao Jose dos Campos-SP 12.227-010, Brazil.
Evaldo J. Corat
Affiliation:
Associated Laboratory of Materials and Sensors, National Institute for Space Research, 1758 Astronautas Av, Sao Jose dos Campos-SP 12.227-010, Brazil.
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Abstract

Composites of silicone rubber and vertically-aligned carbon nanotubes were produced by capillary infiltration of PDMS. The electrical properties of silicone membranes and carbon nanotubes were investigated by impedance spectroscopy. Gauge factor was evaluated by different ways from Nyquist plots, and reached values up 8.

Type
Articles
Copyright
Copyright © Materials Research Society 2015 

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References

REFERENCES

Kang, I., J Schulz, M., Kim, J. H., Shanov, V., Shi, D.. Smart Mater. Struct. 15 (2006)737748 CrossRefGoogle Scholar
Yamada, T., Hayamizu, Y., Yamamoto, Y., Yomogida, Y., Izadi-Najafabadi, A., Futaba, D. N., Hata, K.. Nature Nanotechnology 6 (2011) 296301 CrossRefGoogle Scholar
Obitayo, W. and Liu, T.. Hindawi Publishing Corporation Journal of Sensors 12 (2012) ID 652438, 15 pages CrossRefGoogle Scholar
Singh, K., Akhtar, J., Varghese, S...Microsystem Technologies 20 (2014) 22552259 CrossRefGoogle Scholar
Prokudi, N. A., Shishchenko, E. R., Joo, O. S., Hyung, K. H., Han, S. H.. Carbon 43 (2005)18151819 CrossRefGoogle Scholar
Alamuzi, N. H., Fukunaga, H., Atobe, S., Liu, Y.. Sensors 11 (2011)1069110723 CrossRefGoogle Scholar
Cai, L., Song, L., Luan, P., Zhang, Q., Zhang, N., Gao, Q., Zhao, D., Zhang, X., Tul, M., Yang, F., Zhou, W., Fan, Q., Luo, J., Zhou, W., Ajayan, P. M., Xiel, S.. Scientific Reports 3 (2013) ID 3048–8 pagesGoogle Scholar
Megalini, L., Saito, D. S., Garcia, E. J., Hart, A. J., and Wardle, B. L.. Journal of Nano Systems and Technology 1( 2009) 116 Google Scholar
Kanoun, O., Müller, C., Benchirouf, A., Sanli, A., Dinh, T. N., Al-Hamry, A., Bu, L., Gerlach, C., and Bouhamed, A.. Sensors 14 (2014)1004210071.CrossRefGoogle ScholarPubMed
Lee, C., Jug, L. and Meng, E.. Solid-State Sensors, Actuators, and Microsystems Workshop Hilton Head Island, South Carolina (2012)Google Scholar
Antunes, E. F., Lobo, A. O., Corat, E. J., Trava-Airoldi, V. J., Martin, A. A., Veríssimo, C.. Carbon 44 (2006) 22022211 CrossRefGoogle Scholar
Antunes, E. F., Lobo, A.O., Corat, E. J., Trava-Airoldi, V. J.. Carbon 45(2007) 913921 CrossRefGoogle Scholar
Song, X., Liu, S., Gan, Z., Lv, Q., Cao, H., Yan, H.. Microelectronic Engineering 86 (2009) 23302333 CrossRefGoogle Scholar
Jung, Y. J., Kar, S., Talapatra, S., Soldano, C., Viswanathan, G. , Li, X. , Yao, Z. , Ou, F. S., Avadhanula, A., Vajtai, R., Curran, S. , Nalamasu, O., Ajayan, P. M.. Nano Letters 6 (2006) 413418 CrossRefGoogle Scholar
Lu, J., Lu, M., Bermak, A., Lee, Y-K., 7th IEEE Conference on Nanotechnology (2007) 12401243.Google Scholar
Lee, C., Jug, L., Meng, E.. Appl. Phys. Lett. 102 (2013) 183511 CrossRefGoogle Scholar
Xu, W. Alen, M. G. Journal of Polymer Science Part B: Polymer Physics 51 (2013) 15051512 CrossRefGoogle Scholar