Dr. Christen Tharwat | Smart Materials | Best Researcher Award
Dr. Christen Tharwat | National Research Centre | Egypt
Dr. Christen Tharwat is a Postdoctoral Researcher specializing in nanophotonics, advanced materials, and applied nanotechnology with extensive experience in developing optical sensors for environmental applications and nanomaterial synthesis for biomedical and industrial use. Her research integrates plasmonic and graphene-based gas sensors, magnetic and semiconductor nanoparticles, and nanotechnology for wastewater treatment and biomedical coatings. 39 Citations by 39 documents 11 Documents 4 h-index View h-index button is disabled in preview mode At the National Research Centre in Egypt, she has contributed significantly to the Metal Physics Lab, focusing on innovative metal alloy treatments, ceramic coatings for implants, and solid-state material enhancements. Her academic background includes advanced studies in laser-enhanced sciences, emphasizing the synthesis and modification of nanostructured materials for functional applications. In addition to her research, she has been actively involved in academic and scientific writing, preparing manuscripts, research projects, and journal articles that align with institutional and publication standards. Her scientific contributions reflect a commitment to advancing the applications of nanotechnology in health, environment, and materials science.
Featured Publications
Girgis, E., Adel, D., Tharwat, C., Attallah, O., & Rao, K. V. (2015). Cobalt ferrite nanotubes and porous nanorods for dye removal. Advances in Nano Research, 3(2), 111.
Mahmoud, A. H. K., Korany, F. M. H., Tharwat, C., Hussein, M., Swillam, M. A., et al. (2020). Surface roughness effect on characteristics of Si nanowire solar cell. Journal of Photonics for Energy, 10(4), 045502–045502.
Girgis, E., Tharwat, C., & Adel, D. (2016). Ferrites nanoflowers for dye removal applications. Journal of Advanced Nanomaterials, 1, 49–56.
Gouda, A. M., Elsayed, M. Y., Tharwat, C., & Swillam, M. A. (2016). Silicon-based nanostructures as surface enhanced Raman scattering substrates. Proceedings of Photonics North (PN), 1.
Aziz, M. A. S. C., Othman, M. A., Amer, A., & Ghanim, A. R. M. (2024). Fabrication of crystalline silicon nanowires coated with graphene from graphene oxide on amorphous silicon substrate using excimer laser. Heliyon.
Tharwat, C., Badr, Y., Ahmed, S. M., Bishay, I. K., & Swillam, M. A. (2024). CW laser beam-based reduction of graphene oxide films for gas sensing applications. Optical and Quantum Electronics, 57(1), 69.