RESEARCH INTERESTS

Interface engineering, OPVs

ABOUT/BIOGRAPHY

Dr Ermioni Polydorou studied Computer Engineering at Technological Educational Institute of Piraeus. She attended the inter-departmental Postgraduate Program of Microelectronics of the Department of Informatics and Telecommunications and the Department of Physics of Kapodistrian and National University of Athens in collaboration with the Institute of Microelectronics of National Center of Scientific Research “Demokritos” and wrote her post-graduate thesis in Organic Electronics. She received her PhD degree in the field of Organic Solar Cells in 2020 from the Department of physics of the University of Patras, Greece, where she worked as a PhD candidate for the Research Funding Program: Aristeia II - “Implementing advanced interfacial engineering strategies for highly efficient hybrid solar cells” (IMAGINE-HYSOL). She currently works as Postdoctoral Research Assistant at NCSR Demokritos and her interests are focused on interfacial engineering for optimization of organic solar cells.

https://orcid.org/0000-0003-4304-0005

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PUBLICATIONS

Vasilopoulou, Maria, Yusoff, Abd Rashid Bin Mohd, Kuganathan, Navaratnarajah, Bao, Xichang, Verykios, Apostolis, Polydorou, Ermioni, Armadorou, Konstantina-Kalliopi, Soultati, Anastasia, Papadimitropoulos, Georgios, Haider, Muhammad Irfan and others, A carbon-doped tantalum dioxyfluoride as a superior electron transport material for high performance organic optoelectronics Nano Energy, Elsevier, Volume 70, Pages: 104508, 2020 [doi]

Palilis, Leonidas C, Vasilopoulou, Maria, Verykios, Apostolis, Soultati, Anastasia, Polydorou, Ermioni, Argitis, Panagiotis, Davazoglou, Dimitris, Mohd Yusoff, Abd Rashid bin and Nazeeruddin, Mohammad Khaja, Inorganic and Hybrid Interfacial Materials for Organic and Perovskite Solar Cells Advanced Energy Materials, Volume 10, Pages: 2000910, 2020 [doi]

Soultati, A., Fakharuddin, A., Polydorou, E., Drivas, C., Kaltzoglou, A., Haider, M.I., Kournoutas, F., Fakis, M., Palilis, L.C., Kennou, S., Davazoglou, D., Falaras, P., Argitis, P., Gardelis, S., Kordatos, A., Chroneos, A., Schmidt-Mende, L. and Vasilopoulou, M., Lithium Doping of ZnO for High Efficiency and Stability Fullerene and Non-fullerene Organic Solar Cells ACS Applied Energy Materials, Volume 2, Pages: 1663-1675, 2019 [doi]

Tountas, M., Verykios, A., Polydorou, E., Kaltzoglou, A., Soultati, A., Balis, N., Angaridis, P.A., Papadakis, M., Nikolaou, V., Auras, F., Palilis, L.C., Tsikritzis, D., Evangelou, E.K., Gardelis, S., Koutsoureli, M., Papaioannou, G., Petsalakis, I.D., Kennou, S., Davazoglou, D., Argitis, P., Falaras, P., Coutsolelos, A.G. and Vasilopoulou, M., Engineering of Porphyrin Molecules for Use as Effective Cathode Interfacial Modifiers in Organic Solar Cells of Enhanced Efficiency and Stability ACS Applied Materials and Interfaces, Volume 10, Pages: 20728-20739, 2018 [doi]

Polydorou, E., Botzakaki, M., Drivas, C., Seintis, K., Sakellis, I., Soultati, A., Kaltzoglou, A., Speliotis, T., Fakis, M., Palilis, L.C., Kennou, S., Fakharuddin, A., Schmidt-Mende, L., Davazoglou, D., Falaras, P., Argitis, P., Krontiras, C.A., Georga, S.N. and Vasilopoulou, M., Insights into the passivation effect of atomic layer deposited hafnium oxide for efficiency and stability enhancement in organic solar cells Journal of Materials Chemistry C, Volume 6, Pages: 8051-8059, 2018 [doi]

Tountas, M., Georgiadou, D.G., Zeniou, A., Seintis, K., Soultati, A., Polydorou, E., Gardelis, S., Douvas, A.M., Speliotis, T., Tsikritzis, D., Kennou, S., Fakis, M., Gogolides, E., Tsoukalas, D., Argitis, P. and Vasilopoulou, M., Plasma induced degradation and surface electronic structure modification of Poly(3-hexylthiophene) films Polymer Degradation and Stability, Volume 149, Pages: 162-172, 2018 [doi]

Tountas, M., Topal, Y., Polydorou, E., Soultati, A., Verykios, A., Kaltzoglou, A., Papadopoulos, T.A., Auras, F., Seintis, K., Fakis, M., Palilis, L.C., Tsikritzis, D., Kennou, S., Koutsoureli, M., Papaioannou, G., Ersoz, M., Kus, M., Falaras, P., Davazoglou, D., Argitis, P. and Vasilopoulou, M., Low Work Function Lacunary Polyoxometalates as Electron Transport Interlayers for Inverted Polymer Solar Cells of Improved Efficiency and Stability ACS Applied Materials and Interfaces, Volume 9, Pages: 22773-22787, 2017 [doi]

Polydorou, E., Sakellis, I., Soultati, A., Kaltzoglou, A., Papadopoulos, T.A., Briscoe, J., Tsikritzis, D., Fakis, M., Palilis, L.C., Kennou, S., Argitis, P., Falaras, P., Davazoglou, D. and Vasilopoulou, M., Avoiding ambient air and light induced degradation in high-efficiency polymer solar cells by the use of hydrogen-doped zinc oxide as electron extraction material Nano Energy, Volume 34, Pages: 500-514, 2017 [doi]

Polydorou, E., Botzakaki, M.A., Sakellis, I., Soultati, A., Kaltzoglou, A., Papadopoulos, T.A., Briscoe, J., Drivas, C., Seintis, K., Fakis, M., Palilis, L.C., Georga, S.N., Krontiras, C.A., Kennou, S., Falaras, P., Boukos, N., Davazoglou, D., Argitis, P. and Vasilopoulou, M., Improved Stability of Polymer Solar Cells in Ambient Air via Atomic Layer Deposition of Ultrathin Dielectric Layers Advanced Materials Interfaces, Volume 4, Article Number: 1700231, 2017 [doi]

Vasilopoulou, Maria, Kelaidis, Nikolaos, Polydorou, Ermioni, Soultati, Anastasia, Davazoglou, Dimitris, Argitis, Panagiotis, Papadimitropoulos, Giorgos, Tsikritzis, Dimitris, Kennou, Stella, Auras, Florian and others, Hydrogen and nitrogen codoping of anatase TiO 2 for efficiency enhancement in organic solar cells Scientific reports, Nature Publishing Group, Volume 7, Pages: 1–11, 2017 [doi]

Papamakarios, Vasilis, Polydorou, Ermioni, Soultati, Anastasia, Droseros, Nikos, Tsikritzis, Dimitris, Douvas, Antonios M, Palilis, Leonidas, Fakis, Mihalis, Kennou, Stella, Argitis, Panagiotis and others, Surface Modification of ZnO Layers via Hydrogen Plasma Treatment for Efficient Inverted Polymer Solar Cells ACS applied materials & interfaces, American Chemical Society, Volume 8, Pages: 1194–1205, 2016 [doi]

Polydorou, Ermioni, Soultati, Anastasia and Vasilopoulou, Maria, Highly conductive, optically transparent, low work-function hydrogen-doped boron-doped ZnO electrodes for efficient ITO-free polymer solar cells Journal of Materials Chemistry C, Royal Society of Chemistry, Volume 4, Pages: 691–703, 2016 [doi]

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