101 Publications 2022 and 2023 • Samuel S Hardisty, Xiaoqian Lin, Anthony RJ Kucernak, David Zitoun. “Single-atom Pt on carbon nanotubes for selective electrocatalysis”. Carbon Energy, 2023. • Michael Küttinger, Kobby Saadi, Théo Faverge, Nagaprasad Reddy Samala,I lya Grinberg, David Zitoun, Peter Fischer. “Influence of strong bromine binding complexing agent in electrolytes on the performance of hydrogen/bromine redox flow batteries”. Journal of Energy Storage, 2023. • Raphael Flack, Anna Aixalà-Perelló, Alessandro Pedico, Kobby Saadi, Andrea Lamberti, David Zitoun. “Permselectivity and Ionic Conductivity Study of Na+ and Br− Ions in Graphene Oxide-Based Membranes for Redox Flow Batteries”. Membranes, 2023. • Longlong Wang, Guy Rahamim, Kirankumar Vudutta, Nicole Leifer, Ran Elazari, Ilan Behar, Malachi Noked, David Zitoun. “Influence of the Halogen in Argyrodite Electrolytes on the Electrochemical Performance of AllSolid-State Lithium Batteries”. Energy Technology, 2023. • Kobby Saadi, Xiaozong Fan, Samuel S Hardisty, Peter Pintauro, David Zitoun. “Ultralow platinum loading for redoxflow battery by electrospinning the electrocatalyst and the ionomer in coreshell fibers”. Journal of Energy Storage, 2023. • Ravindra Kumar Bhardwaj, David Zitoun. “Recent Progress in Solid Electrolytes for All-Solid-State Metal (Li/Na)–Sulfur Batteries”. Batteries, 2023. • Anagha Usha Vijayakumar, Jael George Mathew, Anya Muzikansky, HannahNoa Barad, David Zitoun. “Exploration of a NiFeV multi-metal compositional space for the oxygen evolution reaction”. Materials Advances, 2022. • A Usha Vijayakumar, N Aloni,V Thazhe Veettil, G Rahamim, SS Hardisty, M Zysler, S Tirosh, D Zitoun. “Combinatorial Synthesis and Screening of a Ternary NiFeCoOx Library for the Oxygen Evolution Reaction”. ACS Applied Energy Materials, 2022. • Daniel Klose, Sahithya Phani Babu Vemulapalli, Michal Richman, Safra Rudnick, Vered Aisha, Meital Abayev, Marina Chemerovski, Meital Shviro, David Zitoun, Katharina Majer, Nino Wili, Gil Goobes, Christian Griesinger, Gunnar Jeschke, Shai Rahimipour. “Cu2+-Induced self-assembly and amyloid formation of a cyclic d, l-α-peptide: structure and function”. Physical Chemistry Chemical Physics, 2022. • Kobby Saadi, Samuel S Hardisty, Zhanna Tatus-Portnoy, David Zitoun. “Influence of loading, metallic surface state and surface protection in precious group metal hydrogen electrocatalyst for H2/Br2 redox-flow batteries”. Journal of Power Sources, 2022. • Melina Zysler, Enrique Carbo-Argibay, Paulo J Ferreira, David Zitoun. “Dealloyed Octahedral PtCu Nanoparticles as HighEfficiency Electrocatalysts for the Oxygen Reduction Reaction”. ACS Applied Nano Materials, 2022. • Melina Zysler, Victor Shokhen, Samuel Spencer Hardisty, Anya Muzikansky, David Zitoun. “Bifunctional Pt–Ni Electrocatalyst Synthesis with Ultralow Platinum Seeds for Oxygen Evolution and Reduction in Alkaline Medium”. ACS Applied Energy Materials, 2022. • Samuel S Hardisty, Kobby Saadi, Samala Nagaprasad Reddy, Ilya Grinberg, David Zitoun. “Ionically selective carbon nanotubes for hydrogen electrocatalysis in the hydrogen–bromine redox flow battery”. Materials Today Energy, 2022. • Samuel S Hardisty, Nagaprasad Reddy Samala, Ilya Grinberg, David Zitoun. “Adsorption of bromine complexing agents on platinum electrocatalysts and prevention through polydopamine coatings”. International Journal of Hydrogen Energy, 2022. • Vineesh Thazhe Veettil, Anagha Usha Vijayakumar, Aviv Ashdot, David Zitoun. “Precious-Group-Metal-Free EnergyEfficient Urea Electrolysis: Membrane Electrode Assembly Cell Using Ni3N Nanoparticles as Catalyst”. ACS Applied Energy Materials, 2022. • Vineesh Thazhe Veettil, Meera Mohankumar, David Zitoun. “Site-Engineered Tetragonal ZrO2 Nanoparticles: A Promising Oxygen Reduction Catalyst with High Activity and Chemical Stability in Alkaline Medium”. Advanced Materials Interfaces, 2022. • Eli Varon, Gaddi Blumrosen, Moshe Sinvani, Elina Haimov, Shlomi Polani, Michal Natan, Irit Shoval, Avi Jacob, Ayelet Atkins, David Zitoun, Orit Shefi. “An engineered nanocomplex with Photodynamic and Photothermal synergistic properties for cancer treatment”. International Journal of Molecular Sciences, 2022.
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