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RESEARCH INTERESTS

Porous Materials, Membranes, Adsorption, Diffusion, Scattering

ABOUT/BIOGRAPHY

Theodore Steriotis holds a bachelor and a PhD degree in Chemistry (Physical Chemistry Laboratory, Chemistry Department, National & Kapodistrian University of Athens). His research interests lie in the field of porous materials, membranes (Inorganic – Polymeric) and nanocomposites for environmental, energy and health applications. In more detail he has long experience in the synthesis and mainly characterization of the materials above with sorption, diffusion, permeability/selectivity, (neutron & x-ray) scattering techniques as well as their combination. In terms of applications he is working in gas separations and storage (with specific interest in H2, CH4 and CO2) but also controlled delivery of substances. Beyond experimental techniques, a significant amount of effort has been devoted to molecular modeling approaches. Dr Steriotis is the head of MESL and runs the HYSORB lab, which has been funded as a European infrastructure for H2 storage measurements. He is an expert of the International Energy Agency, Hydrogen Technology Collaboration Programme, Task 40: Energy Storage and Conversion Based on Hydrogen. He is currently coordinating a National and a Horizon Europe project and is the scientific responsible for three National and one Horizon 2020 projects. He has co-authored more than 150 publications in books and peer reviewed scientific journals.

PUBLICATIONS

Kostoglou, N., Koczwara, C., Stock, S., Tampaxis, C., Charalambopoulou, G., Steriotis, T., Paris, O., Rebholz, C. and Mitterer, C., Nanoporous polymer-derived activated carbon for hydrogen adsorption and electrochemical energy storage Chemical Engineering Journal, Volume 427, Article Number: 131730, 2022 [doi]

Kostoglou, N., Liao, C.-W., Wang, C.-Y., Kondo, J.N., Tampaxis, C., Steriotis, T., Giannakopoulos, K., Kontos, A.G., Hinder, S., Baker, M., Bousser, E., Matthews, A., Rebholz, C. and Mitterer, C., Effect of Pt nanoparticle decoration on the H2 storage performance of plasma-derived nanoporous graphene Carbon, Volume 171, Pages: 294-305, 2021 [doi]

Mamai, M., Giasafaki, D., Salvanou, E.-A., Charalambopoulou, G., Steriotis, T. and Bouziotis, P., Biodistribution of mesoporous carbon nanoparticles via technetium-99m radiolabelling after oral administration to mice Nanomaterials, Volume 11, Article Number: 3260, 2021 [doi]

Christoforidou, T., Giasafaki, D., Andriotis, E.G., Bouropoulos, N., Theodoroula, N.F., Vizirianakis, I.S., Steriotis, T., Charalambopoulou, G. and Fatouros, D.G., Oral drug delivery systems based on ordered mesoporous silica nanoparticles for modulating the release of aprepitant International Journal of Molecular Sciences, Volume 22, Pages: 1-18, Article Number: 1896, 2021 [doi]

Björk, E.M., Atakan, A., Wu, P.-H., Bari, A., Pontremoli, C., Zheng, K., Giasafaki, D., Iviglia, G., Torre, E., Cassinelli, C., Morra, M., Steriotis, T., Charalambopoulou, G., Boccaccini, A.R., Fiorilli, S., Vitale-Brovarone, C., Robertsson, F. and Odén, M., A shelf-life study of silica- and carbon-based mesoporous materials Journal of Industrial and Engineering Chemistry, Volume 101, Pages: 205-213, 2021 [doi]

Gisbert-Garzarán, M., Berkmann, J.C., Giasafaki, D., Lozano, D., Spyrou, K., Manzano, M., Steriotis, T., Duda, G.N., Schmidt-Bleek, K., Charalambopoulou, G. and Vallet-Regí, M., Engineered pH-Responsive Mesoporous Carbon Nanoparticles for Drug Delivery ACS Applied Materials and Interfaces, Volume 12, Pages: 14946-14957, 2020 [doi]

Boffito, M., Laurano, R., Giasafaki, D., Steriotis, T., Papadopoulos, A., Tonda-Turo, C., Cassino, C., Charalambopoulou, G. and Ciardelli, G., Embedding ordered mesoporous carbons into thermosensitive hydrogels: A cutting-edge strategy to vehiculate a cargo and control its release profile Nanomaterials, Volume 10, Pages: 1-26, Article Number: 2165, 2020 [doi]

Tampaxis, C., Steriotis, T.A., Katsaros, F.K., Sapalidis, A.A., Youngs, T.G.A., Bowron, D.T. and Stefanopoulos, K.L., Enhanced Densification of CO2 Confined in the Pores of a Carbon Material: an in Situ Total Neutron Scattering Study Journal of Surface Investigation, Volume 14, Pages: S221-S224, 2020 [doi]

Stefanopoulos, K.L., Tampaxis, C., Sapalidis, A.A., Katsaros, F.K., Youngs, T.G.A., Bowron, D.T. and Steriotis, T.A., Total neutron scattering study of supercooled CO2 confined in an ordered mesoporous carbon Carbon, Volume 167, Pages: 296-306, 2020 [doi]

Smyrnioti, M., Tampaxis, C., Steriotis, T. and Ioannides, T., Study of CO2 adsorption on a commercial CuO/ZnO/Al2O3 catalyst Catalysis Today, Volume 357, Pages: 495-502, 2020 [doi]

Nguyen, H.G.T., Sims, C.M., Toman, B., Horn, J., van Zee, R.D., Thommes, M., Ahmad, R., Denayer, J.F.M., Baron, G.V., Napolitano, E., Bielewski, M., Mangano, E., Brandani, S., Broom, D.P., Benham, M.J., Dailly, A., Dreisbach, F., Edubilli, S., Gumma, S., Möllmer, J., Lange, M., Tian, M., Mays, T.J., Shigeoka, T., Yamakita, S., Hakuman, M., Nakada, Y., Nakai, K., Hwang, J., Pini, R., Jiang, H., Ebner, A.D., Nicholson, M.A., Ritter, J.A., Farrando-Pérez, J., Cuadrado-Collados, C., Silvestre-Albero, J., Tampaxis, C., Steriotis, T., Řimnáčová, D., Švábová, M., Vorokhta, M., Wang, H., Bovens, E., Heymans, N. and De Weireld, G., A reference high-pressure CH4 adsorption isotherm for zeolite Y: results of an interlaboratory study Adsorption, Volume 26, Pages: 1253-1266, 2020 [doi]

Marini, S., Gjeci, N., Govindaraj, S., But, A., Sportich, B., Ottaviani, E., Márquez, F.P.G., Sanchez, P.J.B., Pedersen, J., Clausen, C.V., Madricardo, F., Foglini, F., Bonofiglio, F., Barbieri, L., Antonini, M., Camacho, Y.S.M., Weiss, P., Nowak, K., Peer, M., Gobert, T., Turetta, A., Chatzidouros, E., Lee, D., Zarras, D., Steriotis, T., Charalambopoulou, G., Yamas, T. and Papaelias, M., Enduruns: An integrated and flexible approach for seabed survey through autonomous mobile vehicles Journal of Marine Science and Engineering, Volume 8, Article Number: 633, 2020 [doi]

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