Z. E. Kul Et Al. , "Mechanism of heavy metal uptake by electron paramagnetic resonance and FTIR: Enhanced manganese(II) removal onto waste acorn of Quercus ithaburensis," SEPARATION SCIENCE AND TECHNOLOGY , vol.51, no.1, pp.115-125, 2016
Kul, Z. E. Et Al. 2016. Mechanism of heavy metal uptake by electron paramagnetic resonance and FTIR: Enhanced manganese(II) removal onto waste acorn of Quercus ithaburensis. SEPARATION SCIENCE AND TECHNOLOGY , vol.51, no.1 , 115-125.
Kul, Z. E., NUHOĞLU, Y., KUL, S., NUHOĞLU, Ç., & Torun, F., (2016). Mechanism of heavy metal uptake by electron paramagnetic resonance and FTIR: Enhanced manganese(II) removal onto waste acorn of Quercus ithaburensis. SEPARATION SCIENCE AND TECHNOLOGY , vol.51, no.1, 115-125.
Kul, Zeynep Et Al. "Mechanism of heavy metal uptake by electron paramagnetic resonance and FTIR: Enhanced manganese(II) removal onto waste acorn of Quercus ithaburensis," SEPARATION SCIENCE AND TECHNOLOGY , vol.51, no.1, 115-125, 2016
Kul, Zeynep E. Et Al. "Mechanism of heavy metal uptake by electron paramagnetic resonance and FTIR: Enhanced manganese(II) removal onto waste acorn of Quercus ithaburensis." SEPARATION SCIENCE AND TECHNOLOGY , vol.51, no.1, pp.115-125, 2016
Kul, Z. E. Et Al. (2016) . "Mechanism of heavy metal uptake by electron paramagnetic resonance and FTIR: Enhanced manganese(II) removal onto waste acorn of Quercus ithaburensis." SEPARATION SCIENCE AND TECHNOLOGY , vol.51, no.1, pp.115-125.
@article{article, author={Zeynep Ekmekyapar Kul Et Al. }, title={Mechanism of heavy metal uptake by electron paramagnetic resonance and FTIR: Enhanced manganese(II) removal onto waste acorn of Quercus ithaburensis}, journal={SEPARATION SCIENCE AND TECHNOLOGY}, year=2016, pages={115-125} }