Hydrothermal Synthesis of Zn-Al-O Composite Nanorods

Abstract:

Article Preview

This paper reported that nanorods of Zn-Al-O composites could be synthesized through hydrothermal process and followed by solid reaction during calcination. The nanorods composites showed high thermal stability up to 900 °C without observed sintering between individual nanoparticles.

Info:

Edited by:

M. Gupta and Christina Y.H. Lim

Pages:

117-120

Citation:

S.C. Shen et al., "Hydrothermal Synthesis of Zn-Al-O Composite Nanorods", Journal of Metastable and Nanocrystalline Materials, Vol. 23, pp. 117-120, 2005

Online since:

January 2005

Export:

Price:

$38.00

[1] A.P. Alivisatos: Science Vol. 271 (1996), p.933.

[2] Y.N. Xia, P.D. Yang, Y.G. Sun, Y.Y. Wu, B. Mayers, B. Gates, Y.D. Yin, F. Kim, H.Q. Yan: Adv. Mater. Vol. 15 (2003), p.353.

[3] X. Duan, Y. Huang, C.M. Leiber: Nano Lett. Vol. 2 (2002), p.487.

[4] P. Jiang, J.F. Bertone, V.L. Colvin: Science Vol. 291 (2001), p.453.

[5] C.J. Murphy, N.R. Jana: Adv. Mater. Vol. 14 (2002), p.80.

[6] V.F. Punter, K.M. Krishnan, A.P. Alivisatos: Science Vol. 291 (2001), p.2115.

[7] B.N. Kim, K. Hiraga, K. Morita, Y. Sakka: Nature Vol. 413 (2001), p.288.

[8] K.T. Thomson, R.M. Wentzcovitch: Science Vol. 274 (1996), p.1880.

[9] V. Valcarcel, A. Perez, F. Guitian: Adv. Mater. Vol 10 (1998), p.1370.

[10] Z.P. Pan, Z.R. Dai, Z.L. Wang: Science Vol 291 (2001), p. (1947).

[11] A.M. Morales, C.M. Lieber: Science Vol 279 (1998), p.208.

[12] Y.Y. Wu , P.D. Yang: Chem. Mater. Vol 12 (2000), p.605.

[13] L.M. Huang, H.T. Wang, Z.B. Wang, A. Mitra, D.Y. Zhao, Y.S. Yan: Chem. Mater. Vol 14 (2002), p.876.

[14] M.W. Barsoum, L. Farber: Science Vol. 284 (1999), p.937.

[15] M. Li, H. Schnablegger, S. Mann: Nature Vol. 402 (1999), p.393.

[16] N.R. Jana, L.A. Gearheart, C.J. Murphy: Adv. Mater. Vol 13 (2001), P. 1389. 0 200 400 600 800 Temperature (o C) DTA Signal (a. u. ) a b 0 0. 2 0. 4 0. 6 0. 8 1 0 200 400 600 800 Temperature (oC) Weight / intial weight a b.