N. I. Alhayali Et Al. , "Catalase/Fe3O4@Cu2+ hybrid biocatalytic nanoflowers fabrication and efficiency in the reduction of organic pollutants," POLYHEDRON , vol.194, 2021
Alhayali, N. I. Et Al. 2021. Catalase/Fe3O4@Cu2+ hybrid biocatalytic nanoflowers fabrication and efficiency in the reduction of organic pollutants. POLYHEDRON , vol.194 .
Alhayali, N. I., Özpozan, N., Dayan, S., Özdemir, N., & Yilmaz, B., (2021). Catalase/Fe3O4@Cu2+ hybrid biocatalytic nanoflowers fabrication and efficiency in the reduction of organic pollutants. POLYHEDRON , vol.194.
Alhayali, Noor Et Al. "Catalase/Fe3O4@Cu2+ hybrid biocatalytic nanoflowers fabrication and efficiency in the reduction of organic pollutants," POLYHEDRON , vol.194, 2021
Alhayali, Noor I. Et Al. "Catalase/Fe3O4@Cu2+ hybrid biocatalytic nanoflowers fabrication and efficiency in the reduction of organic pollutants." POLYHEDRON , vol.194, 2021
Alhayali, N. I. Et Al. (2021) . "Catalase/Fe3O4@Cu2+ hybrid biocatalytic nanoflowers fabrication and efficiency in the reduction of organic pollutants." POLYHEDRON , vol.194.
@article{article, author={Noor Ibrahim Alhayali Et Al. }, title={Catalase/Fe3O4@Cu2+ hybrid biocatalytic nanoflowers fabrication and efficiency in the reduction of organic pollutants}, journal={POLYHEDRON}, year=2021}