Assist. Prof. Dr. Nashwan Ali | Electrochemical Sensor | Editorial Board Member

Research Scientist at University of Samarra | France

Assist. Prof. Dr. Nashwan Ali is a highly capable and multidisciplinary researcher whose strong expertise in electrochemistry, analytical chemistry, and advanced material characterization positions him as an excellent candidate for an Editorial Board Member role. His research spans electrochemical activity mapping, electrocatalysis, electroanalysis, green analytical methodologies, and spectrophotometric innovations, with applications across pharmaceuticals, environmental monitoring, petroleum chemistry, nanomaterials, and water quality assessment. His publication portfolio demonstrates consistent scientific productivity, contributing 13 indexed documents with 40 citations and an h-index of 4 in Scopus, reflecting steady scholarly influence and research visibility. Dr. Ali has co-authored impactful studies on ion-selective electrodes, oxidative coupling reactions, metal ion detection, nanoparticle-assisted sensing, composite materials, and electrochemical screening of Pt–CeO₂ gradient films, published across reputable journals including Sensors, Macromolecular Symposia, AIP Conference Proceedings, and International Journal of Advanced Chemical Research. His collaborative international work, particularly on electrocatalytic films and high-performance electrochemical sensors, showcases his ability to integrate analytical science with materials engineering-an essential quality for editorial decision-making in multidisciplinary domains. His experience supervising electrochemical mapping and developing green, cost-efficient determination techniques highlights his commitment to sustainable scientific approaches. Dr. Ali’s broad methodological command-ranging from cyclic voltammetry and SECM to HPLC, GC-FID, UV-Vis spectroscopy, and nanoparticle-based assays-equips him with the critical evaluation skills required to assess complex manuscripts. His research breadth, publication quality, and demonstrated peer-reviewed contributions make him highly suitable for an Editorial Board position, where analytical expertise, scientific judgment, and cross-disciplinary insight are essential.

Profiles : Scopus | ORCID

Featured Publications

Guesmi, S., Ali, N. H., Missaoui, N., Aloui, Z., Mabrouk, C., Martinez, C. C., Echouchene, F., Barhoumi, H., Jaffrezic-Renault, N., & Kahri, H. (2025). High-performance ZIF-7@PANI electrochemical sensor for simultaneous trace cadmium and lead detection in water samples: A Box–Behnken design optimization approach. Sensors.

Dawood, N. H., & Ali, N. H. (2022). Spectrophotometric determination of captopril in pharmaceutical formulations based on ion-pair reaction with the Red Congo. Journal of Pharmaceutical Negative Results.

Dawood, N. H., & Ali, N. H. (2022). Synthesis and characterization of some new indazolone and carbohydrazide derivatives from azachalcones. Journal of Pharmaceutical Negative Results.

Ali, N. H., Khalaf, A. A., Imran, N. A., Abdul Sattar, O. D., Ismail, M. K., & Ibrahim, A. T. (2020). Determination of loperamide HCl in pharmaceutical preparations using modified ion selective electrode. Systematic Reviews in Pharmacy.

Asker, M. M., Hassan, O. S., & Ali, N. H. (2020). Determination of metoclopramide in pharmaceutical commercial using flow injection chemiluminescence technique. Systematic Reviews in Pharmacy.

Assoc. Prof. Dr. Laila Alqarni | Sensor | Best Researcher Award

Associate Professor and Managing Editor at Imam Mohammad Ibn Saud Islamic University | Saudi Arabia

Assoc. Prof. Dr. Laila Alqarni’s research centers on sustainable nanotechnology and its applications in environmental and energy systems. Her investigations encompass green synthesis of nanomaterials, surface-enhanced Raman detection, photocatalysis, biosensing, and wastewater treatment. She has made substantial contributions to developing hybrid nanocomposites for hydrogen generation, carbon capture, and heavy metal removal, integrating experimental and computational chemistry. With 50 Scopus-indexed documents, 437 citations, and an h-index of 11, her scholarly output underscores consistent impact and quality. Her work has appeared in high-impact journals including International Journal of Nanomedicine, Journal of Molecular Liquids, and Materials Chemistry and Physics. She holds multiple patents in nanotechnology and environmental sensing, reflecting her innovative drive toward sustainability and clean energy technologies. Through interdisciplinary collaborations, Dr. Alqarni continues to advance research in green energy, nanostructured materials, and biosensor development, positioning herself as a global contributor to scientific progress and environmental solutions.

Profiles : Scopus | Google Scholar

Featured Publications

Alqarni, L. S., Alghamdi, M. D., Alshahrani, A. A., & Nassar, A. M. (2022). Green nanotechnology: Recent research on bioresource‐based nanoparticle synthesis and applications. Journal of Chemistry, 2022(1), 4030999. Cited by: 103

Alqarni, L. S., Alghamdi, A. M., Elamin, N. Y., & Rajeh, A. (2024). Enhancing the optical, electrical, dielectric properties and antimicrobial activity of chitosan/gelatin incorporated with Co-doped ZnO nanoparticles: Nanocomposites for use in energy storage and food packaging. Journal of Molecular Structure, 1297, 137011. Cited by: 96

Al-Turkustani, A. M., Arab, S. T., & Al-Qarni, L. S. S. (2011). Medicago Sative plant as safe inhibitor on the corrosion of steel in 2.0 M H2SO4 solution. Journal of Saudi Chemical Society, 15(1), 73–82. Cited by: 70

Alqarni, L. S., Algethami, J. S., EL Kaim Billah, R., Alorabi, A. Q., Alnaam, Y. A., Bahsis, L., Jawad, A. H., Wasilewska, M., & López-Maldonado, E. A. (2024). A novel chitosan-alginate@Fe/Mn mixed oxide nanocomposite for highly efficient removal of Cr (VI) from wastewater: Experiment and adsorption mechanism. International Journal of Biological Macromolecules, 263, 129989. Cited by: 49

Alqarni, L. S., Alghamdi, M. D., Alhussain, H., Elamin, N. Y., Taha, K. K., & Modwi, A. (2024). S-scheme MgO–TiO2@g-C3N4 nanostructures as efficient photocatalyst for alizarin red S photodegradation. Journal of Materials Science: Materials in Electronics, 35(3), 239. Cited by: 23