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February 01, 2019
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Date:27TuesdayJanuary 2026Lecture
Weizmann Ornithology monthly lecture
More information Time 14:10 - 15:30Title To be announcedLocation Benoziyo
591CLecturer Prof. Orr Spiegel Organizer Department of Plant and Environmental SciencesContact Abstract Show full text abstract about Prof. Orr Spiegel from TAU studies animal movement ...» Prof. Orr Spiegel from TAU studies animal movement -
Date:28WednesdayJanuary 2026Lecture
iSCAR Breakfast Seminar
More information Time 09:00 - 10:00Title Cellular and Molecular Trajectories of Age-associated Lymphocytes and Their Impact on Aging and Cognitive DeclineLocation Max and Lillian Candiotty Building
AuditoriumLecturer Prof. Alon Monsonego Organizer Department of Immunology and Regenerative BiologyContact -
Date:28WednesdayJanuary 2026Colloquia
Collective states in molecular lattices: A novel route for tailored 2D and 1D materials
More information Time 11:00 - 12:15Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Stephanie Reich Homepage Abstract Show full text abstract about Two-dimensional materials are atomically thin crystals with ...» Two-dimensional materials are atomically thin crystals with a huge variety of physico-chemical properties. By stacking such materials into heterostructures we can combine the electrical, optical, and vibrational excitations of different materials with atomic control over their interfaces. Despite the great selection of 2D materials existing today, we desire novel routes for their preparation in addition to cleaving them from layered bulk parent compounds.In this talk I discuss a concept for novel 2D materials from organic molecules: Growing molecules into well-defined 2D and 1D lattices. We prepared 2D lattices of flat aromatic molecules using hexagonal boron nitride and graphene as atomically smooth substrates. The molecules are well separated in space and oriented side-by-side so that electrons and vibrations are confined to the individual building blocks. However, the interaction between their optical and vibrational transition dipole moments gives rise to collective states that can propagate inside the lattices. One-dimensional molecular lattices are grown by filling carbon- and boron-nitride nanotubes leading to giant J aggregates inside the tubes. We discuss how to use molecular lattices for advance molecular-2D-material heterostructures and how to manipulate their emergent optical excitations. -
Date:29ThursdayJanuary 2026Conference
Israel Algorithmic Game Theory Day
More information Time 08:00 - 08:00Title Israel Algorithmic Game Theory DayChairperson Shahar DobzinskiContact -
Date:29ThursdayJanuary 2026Lecture
Proteolysis-driven immunity: New insights into the role of proteasome-cleaved peptides in adaptive
More information Time 14:00 - 15:00Location Max and Lillian Candiotty Building
AuditoriumLecturer Prof. Yifat Merbl Organizer Dwek Institute for Cancer Therapy Research -
Date:02MondayFebruary 202604WednesdayFebruary 2026Academic Events
Winter STAR Workshop 2026 in honor of Lenny Makar-Limanov's 80th birthday
More information Time All dayLocation Jacob Ziskind Building
Room 1, 155Homepage -
Date:03TuesdayFebruary 2026Academic Events
Scientific Council Meeting - Steering 2026
More information Time 10:00 - 12:00Location The David Lopatie Conference Centre
KIMELContact -
Date:05ThursdayFebruary 2026Academic Events
Electrogenic In-Vitro Models with Next-Generation Electrophysiology
More information Time 09:30 - 11:00Title High-Density CMOS MEA Platforms for Experimental ElectrophysiologyLocation Benoziyo Building for Biological Science
Seminar Room 590Lecturer Dr. Tom Dufor, Dr. David Jäckel, Dr. Yonatan Katz Abstract Show full text abstract about Microelectrode array (MEA) technology is routinely used to m...» Microelectrode array (MEA) technology is routinely used to measure the physiological activity of electrogenic cells. We will present two novel high-density MEA (HD-MEA) systems designed for studying neural signals at high resolution, in networks and single cells. Additionally, we will highlight key applications, including neurocomputing, present relevant data and analysis techniques, and demonstrate how our HD-MEA technology advances the study of physiological processes in biological samples -
Date:05ThursdayFebruary 2026Lecture
Unleashing natural IL-18 activity using an anti-IL-18BP blocker antibody induces potent immune stimulation and anti-tumor effects
More information Time 14:00 - 15:00Location Candiotty
AuditoriumLecturer Dr. Assaf Menachem Organizer Dwek Institute for Cancer Therapy Research -
Date:05ThursdayFebruary 2026Lecture
PhD Defense Seminar- Lior Greenspoon
More information Time 15:00 - 16:00Title A Quantitative View of the Biosphere in the AnthropoceneLocation Nella and Leon Benoziyo Building for Plant and Environmental Sciences
690Contact -
Date:11WednesdayFebruary 202612ThursdayFebruary 2026Conference
Stress
More information Time 08:00 - 08:00Title StressLocation The David Lopatie Conference CentreChairperson Ruth Scherz-ShouvalHomepage Contact -
Date:11WednesdayFebruary 2026Lecture
Building Bridges through Cell Death
More information Time 09:30 - 17:30Location Arthur and Rochelle Belfer Building for Biomedical Research
Botnar AuditoriumContact -
Date:15SundayFebruary 2026Lecture
PhD Defense seminar by Chen Weller (Prof. Yardena Samuels Lab
More information Time 13:30 - 15:30Title Studying the Cancer Immunopeptidome: From Translation Aberrations to Immune EvasionLocation Candiotty auditorium -
Date:17TuesdayFebruary 2026Lecture
Presentation of PSIFAS - The Israeli National Genomic Medicine Initiative
More information Time 15:00 - 16:00Location Schmidt HallLecturer Prof. Gabi Barabah -
Date:18WednesdayFebruary 2026Lecture
2025-2026 Spotlight on Science Seminar Series
More information Time 12:30 - 14:00Location Gerhard M.J. Schmidt Lecture HallContact -
Date:18WednesdayFebruary 2026Lecture
Life Science Luncheon-Prof. Rotem Sorek
More information Time 12:30 - 14:00Location Benoziyo Auditorium -
Date:19ThursdayFebruary 2026Academic Events
Seminar for PhD thesis defense with Erez Yirmiya
More information Time 11:30 - 12:30Location Arthur and Rochelle Belfer Building for Biomedical Research
Botnar AuditoriumLecturer Erez Yirmiya -
Date:19ThursdayFebruary 2026Lecture
Chemical Protein Synthesis and Modification: Excellent Tools for Therapeutic Applications
More information Time 14:00 - 15:00Location Candiotty
AuditoriumLecturer Prof. Norman Metanis Organizer Dwek Institute for Cancer Therapy Research -
Date:22SundayFebruary 2026Lecture
Guest Lecture by Prof. Michelle Monje
More information Time 10:00 - 11:00Title Azrieli Institute for Brain and neural sciences center and MICCLocation Ebner -
Date:23MondayFebruary 2026Colloquia
From margins to mainstream: the rise of halide perovskites
More information Time 11:00 - 12:15Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Asaph Aharoni Homepage Abstract Show full text abstract about Halide perovskites have become one of the most influential s...» Halide perovskites have become one of the most influential semiconductor materials platformssince 2012, combining outstanding optoelectronic performance with an unusually versatile structural and chemical design space. I will focus on how the field moved rapidly from the margins to the mainstream, and on the key early milestones that defined its trajectory. Three- and two-dimensional (3D and 2D) halide perovskites are an exceptional class of organic-inorganic semiconductors, distinguished by their remarkable carrier lifetimes and structural adaptability. Over the past15 years, these materials have achieved record efficiencies in solar cells, light-emitting devices, and radiation detection, driving rapid advancements in optoelectronic technologies. A critical next step is to deepen our understanding of how organic spacers influence their structure, properties, and performance. This presentation will explore the origins of the field, examine the current state of structure-property relationships, and provide guidelines for the selection and integration of organic spacers into crystalline materials and optoelectronic devices. Recent insights are shedding light on which organic spacer cations can effectively stabilize different perovskite structures.