108 Dr. Stern Michael Department of Physics Member of BINA Nano-Magnetism Center Research Areas • Mesoscopic Physics • Semiconductor Physics • Quantum information • Superconducting circuits • Hybrid Quantum Systems Publications 2020 and 2021 • Lior Shani, Aaron N. Michelson, Brian Minevich, Yafit Fleger, Michael Stern, Avner Shaulov, Yosef Yeshurun & Oleg Gang. “DNA-assembled superconducting 3D nanoscale architectures”. Nature Communications, 2020. Dr. Teblum Eti AFM Member of BINA staff Publications 2020 and 2021 • Rajashree Konar, Rimon Tamari, Eti Teblum, Gilbert Daniel Nessim, Louisa Meshi. “In-Depth Characterization of Stacking Faults Forming During the Growth of Transition-Metal Di-Chalcogenides (TMDCs) by Ambient Pressure-CVD”. Materials Characterization, 2021. • Madina Telkhozhayeva, Rajashree Konar, Ronit Lavi, Eti Teblum, Bibhudatta Malik, Sharon Ruthstein, Elisa Moretti, Gilbert Daniel Nessim. “Phase-Dependent Photocatalytic Activity of Bulk and Exfoliated Defect-Controlled Flakes of Layered Copper Sulfides under Simulated Solar Light”. ACS Sustainable Chemistry & Engineering, 2021, in press. • Lorenzo Vannozzi, Enrico Catalano, Madina Telkhozhayeva, Eti Teblum, Alina Yarmolenko, Efrat Shawat Avraham, Rajashree Konar, Gilbert Daniel Nessim and Leonardo Ricott. “Graphene Oxide and Reduced Graphene Oxide Nanoflakes Coated with Glycol Chitosan, Propylene Glycol Alginate, and Polydopamine: Characterization and Cytotoxicity in Human Chondrocytes”. Nanomaterials, 2021, 11(8), 2105. • Telkhozhayeva, Madina; Teblum, Eti; Konar, Rajashree; Girshevitz, Olga; Perelshtein, Ilana; Aviv, Hagit; Tischler, Yaakov R.; Nessim, Gilbert. “Higher Ultrasonic Frequency Liquid Phase Exfoliation Leads to Larger and Monolayer to Few-Layer Flakes of 2D Layered Materials”. Langmuir, 2021, 37, 4504-4514. • Trucco*, L. Vannozzi, E. Teblum, M. Telkhozhayeva, G.D. Nessim, S. Affatato, G. Lisignoli*, and L. Ricotti*. “Graphene Oxide-doped Gellan Gum-PEGDA hydrogel mimicking the mechanical and lubrication properties of articular cartilage”. Advanced Healthcare Materials, 2021, 10, 20014341-17. • R. Konar, S. Das, E. Teblum, A. Modak, I. Perelshtein, J.J. Richter, A. Schechter*, and G.D. Nessim*. “Facile and Scalable Ambient Pressure Chemical Vapor Deposition-Assisted Synthesis of Layered Silver Selenide (β-Ag2Se) on Ag foil as an Oxygen Reduction Catalyst in Alkaline Medium”. Electrochemical Acta, 2021, 370, 137709. • A. Moumen, R. Konar, D. Zappa, E. Teblum, I.Perelshtein, G.D. Nessim*, and E.Comini*. “Exfoliated 2D few-layered tungsten di-selenide (2H-WSe2) nanosheets for exceptionally sensitive and selective nitrogen dioxide (NO2) detection at room temperature”. ACS Applied Materials and Interfaces, 2021, 13(3), 4316-4329. • V. Trovato, E. Teblum, Y. Kostikov, A. Pedrana, V. Re, G.D. Nessim*, and G. Rosace*. “Electrically conductive cotton fabric coatings developed by silica sol-gel precursors doped with surfactant-aided dispersion of vertically aligned carbon nanotubes fillers in organic solvent-free aqueous solution”. Journal of Colloid and Interface Science, 2020. • R. Konar, Rosy, I. Perelshtein, E. Teblum, M. Telkhozhayeva, M. Tkachev, J.J. Richter, E. Cattaruzza, A. Pietropolli Charmet, P. Stoppa, M. Noked*, G.D. Nessim*. “Scalable synthesis of few-layered 2D tungsten di-selenide (2H-WSe2) nanosheets directly grown on tungsten (W) foil using ambient pressure chemical vapor deposition for reversible Li-ion storage”. ACS Omega, 5 (31), 19409-19421. • V. Trovato, E. Teblum, Y. Kostikov, A. Pedrana, V. Re, G.D. Nessim*, and G. Rosace*. “Sol-gel approach to incorporate millimeter-long carbon nanotubes into fabrics for the development of electricalconductive textiles”. Materials Chemistry and Physics, 2020, 240, 122218. • Y. Chemla, E. Teblum, A. Markus, E. Shawat Avraham, A. Slotsky, Y. Kostikov, N. Farah, M. Telkhozhayeva, G.D. Nessim, Y. Mandel*. “Carbon nanostructures as a scaffold for human embryonic stem cells differentiation toward photoreceptor precursors”. Nanoscale, 2020, 12 (36), 18918-18930. Prof. Sukenik Chaim Department of Chemistry President of the Jerusalem College of Technology Member of BINA Nano-Materials Center Research Areas • Self-assembled monolayer films • Nanoscale organic and inorganic coatings • Reaction mechanisms in organized media • Biomaterials • High performance polymers • Composites and new materials
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