Ozen, S. A. Et Al. 2017. Study of the hydrothermal crystallization process of barium titanate by means of X-ray mass attenuation coefficient measurements at an energy of 59.54 keV. MATERIALS CHARACTERIZATION , vol.129 , 329-335.

Ozen, S. A., Ozen, M., Sahin, M., & Mertens, M., (2017). Study of the hydrothermal crystallization process of barium titanate by means of X-ray mass attenuation coefficient measurements at an energy of 59.54 keV. MATERIALS CHARACTERIZATION , vol.129, 329-335.

Ozen, Songul Et Al. "Study of the hydrothermal crystallization process of barium titanate by means of X-ray mass attenuation coefficient measurements at an energy of 59.54 keV," MATERIALS CHARACTERIZATION , vol.129, 329-335, 2017

Ozen, Songul A. Et Al. "Study of the hydrothermal crystallization process of barium titanate by means of X-ray mass attenuation coefficient measurements at an energy of 59.54 keV." MATERIALS CHARACTERIZATION , vol.129, pp.329-335, 2017

Ozen, S. A. Et Al. (2017) . "Study of the hydrothermal crystallization process of barium titanate by means of X-ray mass attenuation coefficient measurements at an energy of 59.54 keV." MATERIALS CHARACTERIZATION , vol.129, pp.329-335.

@article{article, author={Songul Akbulut Ozen Et Al. }, title={Study of the hydrothermal crystallization process of barium titanate by means of X-ray mass attenuation coefficient measurements at an energy of 59.54 keV}, journal={MATERIALS CHARACTERIZATION}, year=2017, pages={329-335} }