74 Prof. Deutsch Moshe Department of Physics Member of BINA Nano-Materials & Nano-Energy Center Research Areas • Experimental x-ray studies of surface properties of liquid metals • Simple liquids and liquid crystals • Structure of mono-molecular Langmuir films • Dynamical x-ray diffraction phenomena in perfect crystals • High precision crystal binding studies • X-ray emission and absorption spectroscopy • Synchrotron radiation and its applications Publications 2020 and 2021: • Diego Pontoni, Marco DiMichiel, Moshe Deutsch. “Binary mixtures of homologous room-temperature ionic liquids: Temperature and composition evolution of the nanoscale structure”. Journal of Molecular Liquids, 2021. • Diego Pontoni, Marco DiMichiel, Moshe Deutsch. “Nanoscale structure in shortchain ionic liquids”. ChemPhysChem, 2020. • Sven Festersen, Benjamin Runge, Christian Koops, Florian Bertram, Ben Ocko, Moshe Deutsch, Bridget M Murphy, fabrication processes, on-chip integrated quantum photonics is a promising platform for the realization of quantum optics technology. Artistic illustration of opto-electric on-chip quantum circuit. Publications 2020 and 2021 • Marc Jankowski, Nayara Jornod, Carsten Langrock, Boris Desiatov, Alireza Marandi, Marko Lončar, Martin M Fejer. “Quasistatic Optical Parametric Amplification”. Nonlinear Optics, NW3A. 1, 2021. • Di Zhu, Linbo Shao, Mengjie Yu, Rebecca Cheng, Boris Desiatov, CJ Xin, Yaowen Hu, Jeffrey Holzgrafe, Soumya Ghosh, Amirhassan Shams-Ansari, Eric Puma, Neil Sinclair, Christian Reimer, Mian Zhang, Marko Lončar. “Integrated photonics on thin-film lithium niobate”. Advances in Optics and Photonics 13 (2), 242-352, 2021. • Amirhassan Shams-Ansari, Guanhao Huang, Lingyan He, Mikhail Churaev, Prashanta Kharel, Zelin Tan, Jeffrey Holzgrafe, Rebecca Cheng, Di Zhu, Junqiu Liu, Boris Desiatov, Mian Zhang, Tobias J Kippenberg, Marko Lončar. “Probing the Limits of Optical Loss in Ion-Sliced Thinfilm Lithium Niobate”. CLEO: Science and Innovations, STh4J. 4, 2021. • Di Zhu, Yaowen Hu, Boris Desiatov, Linbo Shao, Mengjie Yu, Marko Lončar. “Single-Sideband Modulation Through Polarization Interband Transition in ThinFilm Lithium Niobate Waveguide”. CLEO: Science and Innovations, SW3A. 1, 2021. • M Colangelo, B Desiatov, D Zhu, J Holzgrafe, O Medeiros, M Loncar, KK Berggren. “Superconducting nanowire single-photon detector on thin-film lithium niobate photonic waveguide”. CLEO: Science and Innovations, SM4O. 4, 2020. • Yoshitomo Okawachi, Mengjie Yu, Boris Desiatov, Bok Young Kim, Marko Loncar, Alexander L Gaeta. “Frequency Comb Offset Stabilization via Integrated Lithium Niobate f-2f Interferometer”. CLEO: Science and Innovations, SF1G. 6, 2020. • Y. Okawachi, M. Yu, B. Desiatov, B. Y. Kim, T. Hansson, M. Lončar, and A. L. Gaeta. 6/12/2020. “Chip-based self-referencing using integrated lithium niobate waveguides.” Optica, 7,(6) Pp. 702-707, 2020. • M. Jankowski, C. Langrock, B. Desiatov, A. Marandi, C. Wang, M. Zhang, C. R. Phillips, M. Lončar, M.M. Fejer. “Ultrabroadband Nonlinear Optics in Nanophotonic Periodically Poled Lithium Niobate Waveguides”. Optica 7 (1), 40-46, 2020. Olaf M Magnussen. “Nucleation and Growth of PbBrF Crystals at the Liquid Mercury–Electrolyte Interface Studied by Operando X-ray Scattering”. Langmuir, 2020. • Diego Pontoni, Marco DiMichiel, and Moshe Deutsch. “Temperature evolution of the bulk nano-structure in a homologous series of Room Temperature Ionic Liquids”. J. Mol. Liq. 300, 112280, 2020. • Shir R. Liber, Orlando Marin, Alexander V. Butenko, Racheli Ron, Adi Salomon, Moshe Deutsch and Eli Sloutskin, “Polyhedral water droplets: shape transitions and mechanism”.J. Am. Chem. Soc. 142, 8672−8678, 2020. • Orlando Marin, Maria Tkachev, Eli Sloutskin, and Moshe Deutsch. “Polyhedral liquid droplets: Recent advances in elucidation and application”. Curr. Op. Coll. Interf. Sci. 49, 107-117, 2020. Prof. Elbaz Lior Department of Chemistry Member of BINA Nano-Energy & Nano-Materials Center Research Areas Sustainable energy lab/Hydrogen and Fuel cells • Electrochemistry • Bio-inspired electrochemistry • Alternative energy technologies (fuel cells, batteries and photovoltaics) • Organometallic compounds • Conductive polymers • Porphyrins and transition metal complexes • Ceramic materials • Semiconductors • Carbon supports for alternative energy applications (electrodes, electron acceptors) Abstract Our projects aim at developing bio-inspired catalysts for ORR as well as improving precious metal based catalysts for fuel cells. We also study and develop new materials for fuel cells and batteries that could extend their durability and increase their activity.
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