K. Ozturk Et Al. , "Effect of Catalytically Active Zinc Oxide−Carbon Nanotube Composite on Sensitive Assay of Desloratadine Metabolite," Electroanalysis , vol.32, no.1, pp.50-58, 2020
Ozturk, K. Et Al. 2020. Effect of Catalytically Active Zinc Oxide−Carbon Nanotube Composite on Sensitive Assay of Desloratadine Metabolite. Electroanalysis , vol.32, no.1 , 50-58.
Ozturk, K., BAKIRHAN, N. K., Ozkan, S. A., & USLU, B., (2020). Effect of Catalytically Active Zinc Oxide−Carbon Nanotube Composite on Sensitive Assay of Desloratadine Metabolite. Electroanalysis , vol.32, no.1, 50-58.
Ozturk, Kubra Et Al. "Effect of Catalytically Active Zinc Oxide−Carbon Nanotube Composite on Sensitive Assay of Desloratadine Metabolite," Electroanalysis , vol.32, no.1, 50-58, 2020
Ozturk, Kubra Et Al. "Effect of Catalytically Active Zinc Oxide−Carbon Nanotube Composite on Sensitive Assay of Desloratadine Metabolite." Electroanalysis , vol.32, no.1, pp.50-58, 2020
Ozturk, K. Et Al. (2020) . "Effect of Catalytically Active Zinc Oxide−Carbon Nanotube Composite on Sensitive Assay of Desloratadine Metabolite." Electroanalysis , vol.32, no.1, pp.50-58.
@article{article, author={Kubra Ozturk Et Al. }, title={Effect of Catalytically Active Zinc Oxide−Carbon Nanotube Composite on Sensitive Assay of Desloratadine Metabolite}, journal={Electroanalysis}, year=2020, pages={50-58} }