Supercapacitor Fabrication by Titanium Alloy

Abstract:

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In this paper, we used a simple process of anodization fabrication TiO2, TiO2, TiO2-MoO3, and TiO2-Ta2O5 nanotubes. Those high dielectric constant and large surface area of NT materials are suitable used for the ultracapacitors. Based on the nanotube structural characteristics such as pore diameter, porosity, and tube length, we also investigated and calculated the NT specific capacitance.

Info:

Periodical:

Advanced Materials Research (Volumes 535-537)

Edited by:

Chunxiang Cui, Yali Li and Zhihao Yuan

Pages:

894-898

Citation:

C. C. Chen et al., "Supercapacitor Fabrication by Titanium Alloy", Advanced Materials Research, Vols. 535-537, pp. 894-898, 2012

Online since:

June 2012

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$38.00

[1] G.A. Snook, G.Z. Chen, D.J. Fray, M. Hughes, and M. Shaffer, J. Electroanal. Chem. Vol. 568 (2004), p.135.

[2] P.R.W. Hudson and P.P. Phakey, Nature Vol. 269 (1997), p.229.

[3] J. Lin, N. Masaaki, A. Tsukune, and M. Yamada, Appl. Phys. Lett. Vol. 74 (1999), p.2370.

[4] H. Segawa, K. Mori, M. Itagati, K. Sakurki, and T. Ishiwta, US Patent 4499384 (1985).

[5] C.C. Chen, Y. Bisrat, Z.P. Luo, R.E. Schaak, C.G. Chao, and D.C. Lagoudas, Nanotechnology Vol. 17 (2006), p.367.

[6] C.C. Chen, J. H. Chen, C.G. Chao, and Wen C. Say, J. Mater. Sci. Vol. 40 (2005), p.4053.

[7] H. Tsuchiya and P. Schmuki, Electrochem. Commun. Vol. 7 (2005), p.49.

[8] I. Sieber, H. Hildebrand, A. Friedrich, and P. Schmuki, Electrochem. Commun. Vol. 7 (2005), p.97.

[9] N. Mukherjee, M. Paulose, O. K Varghese., G. K Mor., and C.A. Grimes, J. Mater. Res. Vol. 18 (2003), p.2296.

[10] G.B. Stefanovich, A.L. Pergament, and A.A. Velichko, and L.A. Stefanovich, J. Phys: Condens. Matter. Vol. 16 (2004), p.4013.

[11] I. Paramasivam, Y. Nah, C. Das, N.K. Shrestha, and P. Schmuki, Chem. Eur. J. Vol. 16 (2010), p.8993.

[12] A. Ghicov, S. Aldabergenova, H. Tsuchyia, and P. Schmuki, Angew. Chem. Int. Ed., Vol. 45 (2006), p.6993.

DOI: https://doi.org/10.1002/anie.200601957

[13] Y. Yang, D. Kim, M. Yang, and P. Schmuki, Chem. Commun. Vol. 47 (2011), p.7746.

[14] H. Jha, R. Hahn, and P. Schmuki, Electrochim. Acta Vol. 55 (2010), p.8883.

[15] L.L. Li, C.Y. Tsai, H.P. Wu, C.C. Chen, and W.G. Diau, J. Mater. Chem. Vol. 20 (2010), p.2753.

[16] M. Pourbaix: Atlas of Electrochemical Equilibria in Aqueous Solutions (NACE, USA 1974).

[17] C. C, Chen, W.D. Jehng, L.L. Li, W.G. Diau, J. Electrochem. Soc. Vol. 156 (2009), p. C304.

[18] M. Paulose, H.E. Prakasam, O.K. Varghese, L. Peng, K.C. Popat, G.K. Mor, T.A. Desai, C.A. Grimes, J. Phys. Chem. C Vol. 111 (2007), p.14992.

[19] J.H. Lim, J. Choi, Small Vol. 3 (2007), p.1504.

[20] G. Wang, Z.Y. Liu, J.N. Wu, and Q. Lu, Materials Letters Vol. 71 (2012), p.120.

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