[1] M. C. Johnson, S. Aloni, D. E. McCready, E. D. Bourret-Courchesne, Crystal Growth and Design. 6 (8) (2006) 1936-1941.
[2] E. Comini, Analytica Chimica Acta, 568 (2006) 28–40.
[3] H. Zhaoa, Y. Li, L. Yanga, X. Wua, Materials Chemistry and Physics, 112 (2008) 244–248.
[4] S. Thanasanvorakun, P. Mangkorntong, S. Choopun, N. Mangkorntong, Ceramics International, 34 (2008) 1127–1130.
[5] M.S. Dresselhaus, Y.M. Lin, O. Rabin, M.R. Black, G. Dresselhaus, Nanowires, Springer Handbook of Nanotechnology, (2004) 8–9.
[6] Y. Wu, P. Yang, J. Am. Chem. Soc. 123 (2001) 3165.
[7] R.S. Wagner, W.C. Ellis, Appl. Phys. Lett. 4 (1964) 89–95.
[8] S.P. Mondal, S.K. Ray, J. Ravichandran, I. Manna, Bull. Mater. Sci. 33 (4) (2010) 357–364.
[9] L. Mazeina, Y.N. Picard, J. D. Caldwell, E. R. Glaser, S.M. Prokes, Journal of Crystal Growth, 311 (2009) 3158–3162.
[10] D. Calestani, M. Zha, G. Salviati, L. Lazzarini, L. Zanotti, Journal of Crystal Growth. 275 (2005) e2083–e2087.
[11] Y. Chen, X. Cui, K. Zhang, D. Pan, S. Zhang, B. Wang, J.G. Hou, Chemical Physics Letters. 369 (2003) 16–20.
[12] C. Ling, W. Qian, F. Wei, Journal of Crystal Growth, 285 (2005) 49–53.
[13] Z. Cai, J. Li, Ceramics International, 39 Issue 1 (2013) 377–382.
[14] S.W. Choi, S.H. Jung, S.S. Kim, Journal of Hazardous Materials, 193 (2011) 243–248.
[15] E.M. El-Maghraby, A. Qurashi, T. Yamazaki, Ceramics International, 39 (7) (2013) 8475–8480.
[16] S. Phadungdhitidhada, S. Thanasanvorakun, P. Mangkorntong, S. Choopun, N. Mangkorntong, D. Wongratanaphisan, Current Applied Physics, 11(6) (2011) 1368–1373.
[17] S.H. Mohamed, Journal of Alloys and Compounds, 510 (1) (2012) 119–124.
[18] I.S. Hwang, E.B. Lee, S.J. Kim, J.K. Choi, J.H. Cha, H.J. Lee, B.K. Ju, J.H. Lee, Sensors and Actuators B: Chemical, 154 (2) (2011) 295–300.
[19] R. R. Kumar, K. N. Rao, A. R. Phani, Materials Letters 92 (2013) 243–246.
[20] S.Y. Lee, Y. H. Shin, Y. Kim, Sangdan Kim, S. Ju, Journal of Luminescence 131 Issue 12 (2011) 2565–2568.