2024 ANNUAL REPORT

| 74 | 2024 Annual Report Dmitry Bravo-Zhivotovski, Doron Aurbach, Ayan Mukherjee, Malachi Noked. “Correlation between the Electrochemical Response and Main Components Structure in Solutions for Rechargeable Mg Batteries Based on THF and the Reaction Products of tBuMgCl and AlCl3.” Electrochimica Acta, 2023. • Junbo Zhang, Haikuo Zhang, Suting Weng, Ruhong Li, Di Lu, Tao Deng, Shuoqing Zhang, Ling Lv, Jiacheng Qi, Xuezhang Xiao, Liwu Fan, Shujiang Geng, Fuhui Wang, Lixin Chen, Malachi Noked, Xuefeng Wang, Xiulin Fan. “Multifunctional Solvent Molecule Design Enables High-Voltage Li-Ion Batteries.” Nature Communications, 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 All‐ Solid‐State Lithium Batteries.” Energy Technology, 2023. • Arka Saha, Ortal Shalev, Sandipan Maiti, Longlong Wang, Sri Harsha Akella, Bruria Schmerling, Sarah Targin, Maria Tkachev, Xiulin Fan, Malachi Noked. “Evolution of Ternary LixSnyOz Artificial Cathode-Electrolyte Interphase (ACEI) through ALD: A Surface Strengthened NCM811 with Enhanced Electrochemical Performances for Li-Ion Batteries.” Materials Today Energy, 2023. • J Alberto Blázquez, Rudi R Maça, Olatz Leonet, Eneko Azaceta, Ayan Mukherjee, Zhirong Zhao-Karger, Zhenyou Li, Aleksey Kovalevsky, Ana FernándezBarquín, Aroa R Mainar, Piotr Jankowski, Laurin Rademacher, Sunita Dey, Siân E Dutton,Clare P Grey, Janina Drews, Joachim Häcker, Timo Danner, Arnulf Latz, Dane Sotta, M Rosa Palacin, Jean-Frédéric Martin, Juan Maria García Lastra, Maximilian Fichtner, Sumana Kundu, Alexander Kraytsberg, Yair EinEli, Malachi Noked, Doron Aurbach. “A Practical Perspective on the Potential of Rechargeable Mg Batteries.” Energy & Environmental Science, 2023. • Roman R Kapaev, Malachi Noked. ”Anodic Instability of Carbon in Non-Alkaline Zn– Air Batteries.” Chemical Communications, 2023. • Sri Harsha Akella, Bagavathi Muniyandi, Daniel Sharon, Ömer Özgür Çapraz, Malachi Noked. “Exploring the Impact of Lithium Halide-Based Redox Mediators in Suppressing CO2 Evolution in Li–O2 Cells.” Journal of Materials Chemistry A, 2023. Dr. Ozana Nisan Faculty of Engineering Optical and Acoustical Neuroimaging Lab Research Areas • Neurophotonics • Neuroacoustics • Optical noninvasive brain imaging • Single photon sensing • Interferometric sensing • Brain connectivity analysis Abstract Our neuroengineering research focuses on developing advanced acoustical and optical neuroimaging methods to understand the brain's neural circuitry and fundamental mechanisms. These methods have significant potential in brain-computer interfaces and clinical studies. We combine cutting-edge Electrical Engineering and Neuroimaging techniques, including single photon sensing, superconductive sensing, machine learning, FPGA design, nanoelectronics, biomedical sensing, and neuroimaging. Schematic sketch of a multi-speckle gated system for optical neuroimaging. Publications 2023 and 2024 • Keerthana Deepti Karunakaran, Michael Pascale, Nisan Ozana, Kevin Potter, Gladys N. Pachas, A. Eden Evins, Jodi M. Gilman. “Intoxication Due to Δ9Tetrahydrocannabinol is Characterized by Disrupted Prefrontal Cortex Activity.” Neuropsychopharmacology, 2024. • Kuan Cheng Wu, Alyssa Martin, Marco Renna, Mitchell Robinson, Nisan Ozana, Stefan A. Carp, Maria Angela Franceschini. “Enhancing Diffuse Correlation Spectroscopy Pulsatile Cerebral Blood Flow Signal with Near-Infrared Spectroscopy Photoplethysmography.” Neurophotonics, 2023. • Mitchell B. Robinson, Marco Renna, Nisan Ozana, Alyssa N. Martin, Nikola Otic, Stefan A. Carp, Maria Angela Franceschini. “Portable, High-Speed Blood Flow Measurements Enabled by Long Wavelength, Interferometric Diffuse Correlation Spectroscopy (LW-iDCS).” Scientific Reports, 2023. Prof. Pe’er Avi Department of Physics Quantum Optics with Extremely Broadband Light Research Areas • Optical bandwidth as a resource for quantum information: Novel schemes for quantum measurement and sources of broadband squeezed light • Sub-shot-noise interferometry and coherent Raman spectroscopy (quantum CARS) using broadband squeezed light. • Visualization and manipulation of fast vibrational dynamics in molecules with optical frequency combs • The physics of mode-locked lasers: new sources of ultrashort pulses and frequency combs Abstract Prof. Pe’er Avi is an expert in quantum optics and laser physics, specializing in precision measurement and control of light-matter interaction with broadband light sources. In quantum optics, we harness broadband quantum entanglement and squeezing of light to overcome the classical precision limits of physical measurements. Specifically, I utilize my expertise in the "less common" field of broadband time-energy entangled bi-photons to develop schemes of ultrahigh-speed quantum communication

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