Kaynar, U. Et Al. 2021. Adsorption of thorium (IV) ions by metal ion doped ZnO nanomaterial prepared with combustion synthesis: Empirical modelling and process optimization by response surface methodology (RSM). Applied Radiation and Isotopes , vol.178 .

Kaynar, U., ÇAM KAYNAR, S., EKDAL KARALI, E., AYVACIKLI, M., & Can, N., (2021). Adsorption of thorium (IV) ions by metal ion doped ZnO nanomaterial prepared with combustion synthesis: Empirical modelling and process optimization by response surface methodology (RSM). Applied Radiation and Isotopes , vol.178.

Kaynar, U.H. Et Al. "Adsorption of thorium (IV) ions by metal ion doped ZnO nanomaterial prepared with combustion synthesis: Empirical modelling and process optimization by response surface methodology (RSM)," Applied Radiation and Isotopes , vol.178, 2021

Kaynar, U.H. Et Al. "Adsorption of thorium (IV) ions by metal ion doped ZnO nanomaterial prepared with combustion synthesis: Empirical modelling and process optimization by response surface methodology (RSM)." Applied Radiation and Isotopes , vol.178, 2021

Kaynar, U. Et Al. (2021) . "Adsorption of thorium (IV) ions by metal ion doped ZnO nanomaterial prepared with combustion synthesis: Empirical modelling and process optimization by response surface methodology (RSM)." Applied Radiation and Isotopes , vol.178.

@article{article, author={U.H. Kaynar Et Al. }, title={Adsorption of thorium (IV) ions by metal ion doped ZnO nanomaterial prepared with combustion synthesis: Empirical modelling and process optimization by response surface methodology (RSM)}, journal={Applied Radiation and Isotopes}, year=2021}