N. A. Benedek, A. T. Mulder, and C. J. Fennie, Journal of Solid State Chemistry, vol.195, pp.11-20, 2012.

D. Peng, X. Wang, C. Xu, X. Yao, J. Lin et al., Journal of the American Ceramic Society, vol.96, pp.184-190, 2013.

S. F. Matar, Progress in Solid State Chemistry, vol.40, pp.31-40, 2012.

,

A. R. Bishop, Journal of Physics and Chemistry of Solids, vol.65, pp.1449-1454, 2004.

H. W. Roesky, I. Haiduc, and N. S. Hosmane, Chemical Reviews, vol.103, pp.2579-2596, 2003.

F. Song, X. Shen, M. Liu, and J. Xiang, Journal of Solid State Chemistry, vol.185, pp.31-36, 2012.

V. M. Fridkin and B. N. Popov, Soviet Physics Uspekhi, vol.21, p.981, 1978.

V. M. Fridkin and B. N. Popov, Ferroelectrics, vol.21, pp.611-613, 1978.

,

A. M. Glass, D. Von-der-linde, and T. J. Negran, Applied Physics Letters, vol.25, pp.233-235, 1974.

G. Dalba, Physical Review Letters, vol.74, pp.988-991, 1995.

,

A. Garcia-cabanes and J. M. Cabrera, Journal of Physics: Condensed Matter, vol.5, pp.2267-2276, 1993.

M. Simon, Journal of Physics D: Applied Physics, vol.30, 1997.

B. Kang, Optics Communications, vol.266, pp.203-206, 2006.

,

P. Poosanaas, Journal of Applied Physics, vol.84, pp.1508-1512, 1998.

Y. S. Yang, Applied Physics Letters, vol.76, pp.774-776, 2000.

,

J. F. Ihlefeld, Applied Physics Letters, vol.92, 2008.

S. Y. Yang, Applied Physics Letters, vol.95, 2009.

J. Kim, D. Kim, and S. Lee, Solar Cell Using Ferroelectric Material. US6639143, 2003.

V. A. Bokov and I. E. Myl'nikova, Soviet Physics Solid State, vol.2, p.2428, 1960.

G. A. Smolenskii, V. A. Isupov, A. I. Agranovskaya, and S. N. Popov, , vol.2, p.2584, 1961.

S. Nomura, T. Takahashi, and Y. Yokomizo, Journal of the Physical Society of Japan, vol.27, 1969.

R. Ndioukane,

M. L. Mulvihill, S. E. Park, G. Risch, Z. Li, K. Uchino et al., The Japanese Journal of Applied Physics, vol.35, 1996.

L. Lebrun, S. Zhang, C. A. Randall, T. R. Shrout, and D. Guyomar, Ceramic Transactions, p.117, 2002.

A. Benayad, D. Kobor, L. Lebrun, B. Guiffard, and D. Guyomar, Journal of Crystal Growth, vol.270, pp.137-144, 2004.

F. Dupret, . Van-den, and N. Bogaert, Growth Mechanisms and Dynamics, Handbook of Crystal Growth, vol.2, 1994.

S. Prya and K. Uchino, Journal of Applied Physics, vol.91, p.4515, 2002.

M. Touré, D. Kobor, L. G. Ndiaye, A. Ndiaye, M. Tine et al., Influence of Pyramids and Inverted Pyramids on Silicon Optical Properties. International Energy and Sustainability Conference, 2016.

. Cologne, , 2016.

S. Koshimizu, Key Engineering Materials, pp.377-380, 2005.

,

O. Demichel, Propriétés Électroniques de Nanofils de Silicium obtenus par Croissance Catalysée, vol.14, 2010.

D. Kobor, M. Tine, A. Hajjaji, L. Lebrun, and D. Guyomar, Journal of Modern Physics, vol.3, pp.402-409, 2012.

A. F. , Journal de Physique Radium, vol.11, pp.310-314, 1950.

,

J. Tauc, The Optical Properties of Solids, 1966.

C. S. Kong, Formation of Silicon Nanowires by Chemical Vapour Deposition Technique Using Indium Catalyst, 2012.

D. Kovalev, H. Heckler, M. Ben-chorin, G. Polisski, M. Schwartzkopff et al., Physical Review Letters, vol.81, p.2803, 1998.

H. Chong-jun, Chinese Physics B, vol.21, p.3, 2012.