Raheleh Nasrollahi

Raheleh Nasrollahi during her Ph.D., postdoctoral, and internship period, has synthesized many new organic supramolecular compounds based on Porphyrin and functionalized them with substituted groups. She used different techniques like Chromatography to separate and purify the different products. She studied their application in various areas.

Porphyria-associated tissue injury & genetic modifiers contribute to Porphyria disease manifestations and Liver disease

B.Sc Chemistry, Shiraz University, SHIRAZ, IRAN 2009 , M.Sc Inorganic Chemistry, Shiraz University, SHIRAZ, IRAN 2012 , Ph.D. Inorganic Chemistry, Institute for advanced studies in basic sciences, ZANJAN, IRAN 2019

Awarded an NIH postdoctoral research fellowship at the University of Pennsylvania Perelman School of Medicine U.S., in the Department of Radiology (2022)

Awarded a postdoctoral research fellowship from Iran National Science Foundation, IRAN in the Shiraz University School of Medicine (2020)

Fellowship –Internship- University of Miguel Hernández of Elche, Spain (UMH), Institute of Bioengineering (2017)

1^st Rank Holder in Ph.D., Institute for advanced studies in basic sciences, Zanjan, IRAN

Fellowship (Internship), University of Miguel Hernández of Elche, Spain (UMH) Institute of Bioengineering (2017-2018) Working on the application of porphyrin derivatives modified at the meso position in nanostructured titanium dioxide-based dye-sensitized solar cells (DSSCs), Making devices, and measuring the efficiency of devices.

International Conference, Phthalocyanine-Based Multichromophoric Systems as Artificial Photosynthetic Analogues, 6^th Iberian Conference on Photochemistry, September (2018), University of Aveiro, Aveiro, Portugal.

"Kinetic and mechanistic aspects of solid state, nanostructured porphyrin diacid photosensitizers in photooxidation of sulfides", "Kinetics and mechanistic studies on the formation and reactivity of high valent MnO porphyrin species: mono-ortho or para-substituted porphyrins versus a di-ortho-substituted one", Effect of the Number of Anchoring and Electron-Donating Groups on the Efficiency of Free-Base- and Zn-Porphyrin-Sensitized Solar Cells.