87 Ernest Bode, Enrica Bordignon, Marina Bennati, Gunnar Jeschke. “Benchmark Test and Guidelines for DEER/PELDOR Experiments on Nitroxide-Labeled Biomolecules”. Journal of the American Chemical Society, 2021. · Gulshan R Walke, Dr Shelly Meron, Yulia Shenberger, Lada Gevorkyan-Airapetov, Sharon Ruthstein. “Cellular Uptake of the ATSM− Cu (II) Complex under Hypoxic Conditions”. ChemistryOpen, 2021. · Lukas Hofmann, Melanie Hirsch, Sharon Ruthstein. “Advances in Understanding of the Copper Homeostasis in Pseudomonas aeruginosa”. International Journal of Molecular Sciences 22 (4), 2050, 2021. Prof. Salomon Adi Department of Chemistry Member of BINA Photonics Center Nano & Advanced Materials Center Research Areas • plasmonics • molecules-surface plasmons interaction • molecular dynamics • strong coupling systems • Near field spectroscopy • Second Harmonic Generation (SHG) Abstract Light-matter interaction at the nanoscale The overall goal of my laboratory is to develop, fabricate and to use plasmonic systems as a ‘photonic environment’, or even as a ‘photonic catalyst’. In general, we aim at opening new routes for photochemical processes/ reactions on surfaces by controlling the electromagnetic-field properties at the metal surface, that is, to do, ‘chemistry with plasmons’. Large-scale nonporous metallic network is belong to a unique class of light materials with photocatalytic and optical properties which we develop in my lab. Publications 2021 and 2022 · Adam Weissman, Maxim Shukharev, Adi Salomon. “Strong coupling between an inverse bowtie Nano-Antenna and a J-aggregate”. Journal of Colloid and Interface Science, 2022. · Ariel Ashkenazy, Racheli Ron, Tchiya Zar, Hannah Aharon, Adi Salomon, Dror Fixler, Eliahu Cohen. “Measurement of the Second-Order Polarizability of Silver Nanoparticles With Reference-Free Hyper-Rayleigh Scattering for Entangled Photon Pair Interaction”. IEEE Photonics Journal, 2022. · Tchiya Zar, Racheli Ron, Omer Shavit, Alon Krause, David Gachet, Adi Salomon. “Nanoscopy of Aluminum Plasmonic Cavities by Cathodoluminescence and Second Harmonic Generation”. Advanced Photonics Research, 2022. · Marianna Beiderman, Ariel Ashkenazy, Elad Segal, Menachem Motiei, Adi Salomon, Tamar Sadan, Dror Fixler, Rachela Popovtzer. “Optimization of Gold Nanorod Features for the Enhanced Performance of Plasmonic Nanocavity Arrays”. ACS Omega, Oct 2021. · Maxim Sukharev, Adi Salomon, Joseph Zyss. “Second harmonic generation by strongly coupled exciton–plasmons: The role of polaritonic states in nonlinear dynamics”. The Journal of Chemical Physics, Jun 2021. · Ilya Olevsko, Kaitlin Szederkenyi, Jennifer Corridon, Aaron Au, Brigitte Delhomme, Thierry Bastien, Julien Fernandes, Christopher Yip, Martin Oheim, Adi Salomon. “A simple, inexpensive and multi-scale 3-D fluorescent test sample for optical sectioning microscopies”. Microscopy Research and Technique, May 2021. · Adi Salomon, Heiko Kollmann, Manfred Mascheck, Slawa Schmidt, Yehiam Prior, Christoph Lienau, Martin Silies. “Spaceand time-resolved second harmonic spectroscopy of coupled plasmonic nanocavities”. Nanophotonics, May 2021. · Xiaotian Xue, Yihang Fan, Elad Segal, Weipeng Wang, Fei Yang, Yanfeng Wang, Fengtong Zhao, Wangyang Fu, Yunhan Ling, Adi Salomon, Zhengjun Zhang. “Periodical concentration of surface plasmon polaritons by wave interference in metallic film with nanocavity array”. Materials Today, Jan 2021. Prof. Sarid Ronit The Mina & Everard Goodman Faculty of Life Sciences Member of BINA Medicine Center Research Areas • The study of the etiology of cancer is critical to understanding how to prevent this disease and to improve treatment. • Exploring the Cellular and Viral Pathways of KSHV Infection Cycle and Pathogenesis • KSHV: Clinical and Epidemiological Studies • Drug Discovery, Design and Delivery Research for Infectious Disease Abstract Virology Research Kaposi’s sarcoma-associated herpesvirus (KSHV), also referred to as human herpesvirus-8 (HHV-8), is one of the few viruses proven to be associated with cancer in humans. It is causally associated with all clinical and epidemiological variants of Kaposi’s sarcoma as well as with two lymphoproliferative disorders: primary effusion lymphoma and a subset of multicentric Castleman’s disease. Like all other herpesviruses, primary infection with KSHV is followed by lifelong infection, with the potential for virus reactivation which enables virus spread and leads to an increased risk for disease development. Sarid’s group studies the cellular and viral signalling pathways that regulate the establishment of long-term latent infection and reactivation of KSHV. In addition, by examining viral-host protein interactions and the effects of viral proteins on cell proliferation, cell death, and signal
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