I. Kucuk Et Al. , "Green electrochemical nanosensor platform design for mexiletine detection based on Citrus reticulata peel-mediated iron nanoparticles and quantum dots and investigation of the adsorption mechanism by the DFT-D3 method," NEW JOURNAL OF CHEMISTRY , vol.48, no.8, pp.3729-3740, 2024
Kucuk, I. Et Al. 2024. Green electrochemical nanosensor platform design for mexiletine detection based on Citrus reticulata peel-mediated iron nanoparticles and quantum dots and investigation of the adsorption mechanism by the DFT-D3 method. NEW JOURNAL OF CHEMISTRY , vol.48, no.8 , 3729-3740.
Kucuk, I., Kanbes-Dindar, C., Unal, D. N., BOZAL PALABIYIK, B., Karayel, A., & Uslu, B., (2024). Green electrochemical nanosensor platform design for mexiletine detection based on Citrus reticulata peel-mediated iron nanoparticles and quantum dots and investigation of the adsorption mechanism by the DFT-D3 method. NEW JOURNAL OF CHEMISTRY , vol.48, no.8, 3729-3740.
Kucuk, Ipek Et Al. "Green electrochemical nanosensor platform design for mexiletine detection based on Citrus reticulata peel-mediated iron nanoparticles and quantum dots and investigation of the adsorption mechanism by the DFT-D3 method," NEW JOURNAL OF CHEMISTRY , vol.48, no.8, 3729-3740, 2024
Kucuk, Ipek Et Al. "Green electrochemical nanosensor platform design for mexiletine detection based on Citrus reticulata peel-mediated iron nanoparticles and quantum dots and investigation of the adsorption mechanism by the DFT-D3 method." NEW JOURNAL OF CHEMISTRY , vol.48, no.8, pp.3729-3740, 2024
Kucuk, I. Et Al. (2024) . "Green electrochemical nanosensor platform design for mexiletine detection based on Citrus reticulata peel-mediated iron nanoparticles and quantum dots and investigation of the adsorption mechanism by the DFT-D3 method." NEW JOURNAL OF CHEMISTRY , vol.48, no.8, pp.3729-3740.
@article{article, author={Ipek Kucuk Et Al. }, title={Green electrochemical nanosensor platform design for mexiletine detection based on Citrus reticulata peel-mediated iron nanoparticles and quantum dots and investigation of the adsorption mechanism by the DFT-D3 method}, journal={NEW JOURNAL OF CHEMISTRY}, year=2024, pages={3729-3740} }