91 Abstract Directed Materials Assembly by Optical and Acoustic Forces We develop novel concepts based on the idea that forces arising from light (as optical traps or photo- thermal based) and standing acoustic waves can be used to influence the products of ongoing chemical reactions. These forces dictate the spatial distribution of the materials, their mesoscopic structure and could allow the formation of new composite materials. These approaches have many benefits compared to other “bottom-up” methods for material assembly that conventionally rely on accumulation of preformed materials. A key feature of our methodology is its modularity, as it could be implemented on various material systems. Due to the flexibility in material choice, this innovative approach will open the door to new ways to act upon materials, with envisioned applications in 3D printing, electronics and sensing. We develop novel methods for bottom-up directed assembly by utilizing concepts from chemistry, physics, and materials science. Publications 2021 and 2022 · Ari Leshno, Avraham Kenigsberg, Heli Peleg-Levy, Silvia Piperno, Alon Skaat, Hagay Shpaisman. “Acoustic Manipulation of Intraocular Particles”. Micromachines, 2022. · Eitan Edri, Nina Armon, Ehud Greenberg, Shlomit Moshe-Tsurel, Danielle Lubotzky, Tommaso Salzillo, Ilana Perelshtein, Maria Tkachev, Olga Girshevitz, Hagay Shpaisman. “Laser Printing of Multilayered Alternately Conducting and Insulating Microstructures”. ACS applied materials & interfaces, 2021. Localization of RNA molecules at a nano scale resolution within Neuropeptide F neurons. In collaboration with the Alon lab. Publications 2021 and 2022 · Assa Bentzur, Shahar Alon, Galit ShohatOphir. “Behavioral Neuroscience in the Era of Genomics: Tools and Lessons for Analyzing High-Dimensional Datasets”. International Journal of Molecular Sciences 23 (7), 3811, 2022. · Julia Ryvkin, Assa Bentzur, Anat Shmueli, Miriam Tannenbaum, Omri Shallom, Shiran Dokarker, Jennifer IC Benichou, Mali Levi, Galit Shohat-Ophir. “Transcriptome Analysis of NPFR Neurons Reveals a Connection Between Proteome Diversity and Social Behavior.” Frontiers in behavioral neuroscience, 2021. · Assa Bentzur, Shir Ben-Shaanan, Jennifer IC Benichou, Eliezer Costi, Mali Levi, Amiyaal Ilany, Galit Shohat-Ophir. “Early life experience shapes male behavior and social networks in Drosophila”. Current Biology, 2021. Relatively large fluctuations were observed upon repeated measurements at the same point both in supported and suspended samples. In bilayer graphene samples, the repeatability is reduced due to additional fluctuations in the twist angle between two misoriented layers. The average position of the RS lines is shifted in opposite directions and makes it possible to distinguish between bilayer and monolayer films, despite the similarity in the RS spectra. Publications 2021 and 2022 · NM Yitzhak, O Girshevitz, A Haran, A Butenko, M Kaveh, I Shlimak. “Evidence of structural changes in ion-irradiated graphene independent of the incident ions mass”. Applied Surface Science, 2022. Prof. Shohat-Ophir Galit The Mina & Everard Goodman Faculty of Life Sciences Member of BINA Medicine Center Research Areas Neurogenetics of motivation and social behavior Abstract Motivation is the process that initiates, guides, and maintains goal-oriented behavior, which includes the biological forces that activate behavior. At our lab, we try to bridge the gap between behavioral phenomena and the cellular machinery that encodes information on gradual changes in drive level and decodes it into a graded behavior. Prof. Shpaisman Hagay Department of Chemistry Member of BINA Nano & Advanced Materials Center Research Areas • Directed assembly • Composites and hybrid materials • 3D Printing • Polymerization & phase separation processes • Holographic Optical Tweezers (HOT) • Standing acoustic waves • MicrofluidicsV
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