Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

 Development of an Ultra-Sensitive Electrochemical Sensor: AgNPs Deposition on Fe3O4NPs-GO Surface for Accurate Quantification of Morphine and Pethidine in Biological Samples.

Nodehi, M., Baghayeri, M., Hosseini, F. et al.Top Catal (2024). https://doi.org/10.1007/s11244-024-01963-3

Simultaneous Electro-Sensing of Guanine and Adenine on GO/Fe3O4-PMDA@Bi Nanocomposite.

Baghayeri, M., Nodehi, M., Amiri, A. et al. Top Catal (2024). https://doi.org/10.1007/s11244-024-01960-6

Pushing Back the Detection Limit for Photoelectrochemical Sensing of Bisphenol A by Using a Readily Available and Ultrastable BiVO4/ITO Electrode

Marzieh Nodehi, Mohammad Zirak, Oliver Reiser, Hassan Alehdaghi, Maziyar Kazemi, Mina-Sadat Koshki, Navid Rabiee, and Mehdi Baghayeri:ACS Appl. Eng. Mater. 2024, 2, 4, 955–964, April 12, 2024, https://doi.org/10.1021/acsaenm.4c00015

Development of an impedimetric sensor for susceptible detection of Melatonin at picomolar concentrations in diverse pharmaceutical and human specimens, Mehdi Baghayeri, Xuru Jin; Marzieh Nodehi; Yi Xu; Zhidan Hua; Ying Lei; Minmin Shao; Pooyan Makvandi,Environmental Research

Volume 238, Part 1, 1 December 2023, 11708

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

 Development of a non-enzymatic photoelectrochemical sensor based on Mo:BiVO4 for glucose detection in biological matrix, Co-authors: Mehdi baghayeri, Marzieh Nodehi, 17 th Annual Electrochemistry Seminar of Iran 1-2 March 2023, Iran, University of Science and Technology.
 

17th Annual Electrochemistry Seminar of Iran by the Oral Presentation of the Article entitled: Application of bismuth-based metal-organic framework /graphene oxide nanocomposite for simultaneous determination of Cd (II) and Pb (II), Marzieh Nodehi, 1-2 March 2023, Iran, University of Science and Technology.