Gurbuz, M. U. Et Al. 2021. In situ green synthesis of MnFe2O4@EP@Ag nanocomposites using Epilobium parviflorum green tea extract: An efficient magnetically recyclable catalyst for the reduction of hazardous organic dyes. APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.6 .

Gurbuz, M. U., KOCA, M., ELMACI, G., & Erturk, A. S., (2021). In situ green synthesis of MnFe2O4@EP@Ag nanocomposites using Epilobium parviflorum green tea extract: An efficient magnetically recyclable catalyst for the reduction of hazardous organic dyes. APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.6.

Gurbuz, Mustafa Et Al. "In situ green synthesis of MnFe2O4@EP@Ag nanocomposites using Epilobium parviflorum green tea extract: An efficient magnetically recyclable catalyst for the reduction of hazardous organic dyes," APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.6, 2021

Gurbuz, Mustafa U. Et Al. "In situ green synthesis of MnFe2O4@EP@Ag nanocomposites using Epilobium parviflorum green tea extract: An efficient magnetically recyclable catalyst for the reduction of hazardous organic dyes." APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.6, 2021

Gurbuz, M. U. Et Al. (2021) . "In situ green synthesis of MnFe2O4@EP@Ag nanocomposites using Epilobium parviflorum green tea extract: An efficient magnetically recyclable catalyst for the reduction of hazardous organic dyes." APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.6.

@article{article, author={Mustafa Ulvi Gurbuz Et Al. }, title={In situ green synthesis of MnFe2O4@EP@Ag nanocomposites using Epilobium parviflorum green tea extract: An efficient magnetically recyclable catalyst for the reduction of hazardous organic dyes}, journal={APPLIED ORGANOMETALLIC CHEMISTRY}, year=2021}