U. H. Kaynar Et Al. , "Adsorption of thorium (IV) ions using a novel borate-based nano material Ca3Y2B4O12: Application of response surface methodology and Artificial Neural Network," Applied Radiation and Isotopes , vol.192, 2023
Kaynar, U. H. Et Al. 2023. Adsorption of thorium (IV) ions using a novel borate-based nano material Ca3Y2B4O12: Application of response surface methodology and Artificial Neural Network. Applied Radiation and Isotopes , vol.192 .
Kaynar, U. H., Kaptanoglu, İ. G., ÇAM KAYNAR, S., Ugurlu, O., Yusan, S., Aytas, Ş., ... Madkhli, A.(2023). Adsorption of thorium (IV) ions using a novel borate-based nano material Ca3Y2B4O12: Application of response surface methodology and Artificial Neural Network. Applied Radiation and Isotopes , vol.192.
Kaynar, Umit Et Al. "Adsorption of thorium (IV) ions using a novel borate-based nano material Ca3Y2B4O12: Application of response surface methodology and Artificial Neural Network," Applied Radiation and Isotopes , vol.192, 2023
Kaynar, Umit H. Et Al. "Adsorption of thorium (IV) ions using a novel borate-based nano material Ca3Y2B4O12: Application of response surface methodology and Artificial Neural Network." Applied Radiation and Isotopes , vol.192, 2023
Kaynar, U. H. Et Al. (2023) . "Adsorption of thorium (IV) ions using a novel borate-based nano material Ca3Y2B4O12: Application of response surface methodology and Artificial Neural Network." Applied Radiation and Isotopes , vol.192.
@article{article, author={Umit H. Kaynar Et Al. }, title={Adsorption of thorium (IV) ions using a novel borate-based nano material Ca3Y2B4O12: Application of response surface methodology and Artificial Neural Network}, journal={Applied Radiation and Isotopes}, year=2023}