Ramot has access to cutting-edge laboratories and technologies at Tel Aviv University, Israel’s leading multidisciplinary institution. The university’s location, in Israel’s cultural and industrial capital, makes it easily accessible to visiting researchers and industry partners.
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Sub Category Name
Burton Materials Discovery Lab
Research Projects Innovative Materials Discovery Our cutting-edge computational hardware and efficient software enable us to identify and predict new materials before synthesis. This groundbreaking approach has led to the discovery of 11 novel semiconductor materials, with international patents acquired by Panasonic Corporation. Machine Learning for Targeted Discovery While we excel in materials discovery, our research […] Read More >
Service Laboratory for Biomass Separation and Processing
Prof. Alexander Golberg’s laboratory is equipped with advanced facilities designed to support a wide range of biomass separation and processing needs. Our comprehensive suite of equipment and expertise enables us to offer high-quality services to academic researchers, industry partners, and governmental agencies involved in biomass conversion, waste management, and biofuel production. Equipment and Capabilities 1. […] Read More >
PBLab- The laboratory for neurovascular coupling
The lab focuses on uncovering the dynamics and cellular processing governing neurovascular coupling under healthy and pathological conditions Specific Research interests/topics: • Neurovascular coupling • Multiphoton imaging • Ischemia, gray matter vascular occlusions • Microglia and neuro-immune responses Research methods: • In vivo imaging methods: two-photon microscopy, wide-field calcium imaging, MRI. • Novel spatial decision […] Read More >
Iftach Nachman Lab
We focus on understanding early developmental cell fate decisions and patterning using embryonic stem cell-based in-vitro models of early development. Read More >
The Rosenfeld Lab- Nanoengineering for Biomedicine
Our lab integrates a wide array of disciplines, including bioengineering, cell biology and materials science, towards development of peripheral organs modulation approaches. Our goal is to advance the fundamental understanding and therapeutic approaches for treating organ dysfunction and connecting it to the nervous system. We develop novel clinically translatable nanomaterials and nanocomposites for spatially and […] Read More >
Symbolic Cognition and Interaction (SCI) Lab
In the broadest terms, we try to understand the psychological processes of knowledge construction; i.e., the mechanisms whereby humans understand and predict their reality. We are interested in the construction of knowledge about the self (e.g., the self-concept) and the social world (e.g., ideology); one’s personal past (e.g., autobiographical memory) and about the future of […] Read More >
Urban Space Analysis Lab
The activity of our lab is concentrated on the spatial behavior of people in the urban environment. We investigate how spatial behaviors, such as movement/mobility, wayfinding and functional-social activities, relate to the characteristics and structure of the urban environment. For that aim, we use spatial, topological and visual analytic tools as well as geographic Information […] Read More >
Geosimulation and Spatial Analysis Lab
Based on high-resolution GIS and big data on human and institutions’ spatial behavior, we model the complex geographic system as collectives of decision-makers who define system’s spatio-temporal dynamics and evolve themselves. Smartcard and Cellular data analysis Based on the Smartcards and Cellular data we estimate the demand for public transport and compare it to the […] Read More >
Image Processing and Analysis and in Computational Vision.
Research interests: Applications of Differential Geometry ideas and techniques in Image Processing and Analysis and in Computational Vision. My former research studies were devoted to Conformal Field Theories and Integrable Models in relation to String Theory and to Statistical Mechanics. The Beltrmai framework A differential geometric framework for image processing and analysis. Different objects of […] Read More >
MSMS Lab- MultiScale Mechanics of Solids
In Dr. Berinskii’s group, we use continuous and discrete methods to investigate the mechanical properties of materials and structures. Continuum representation of material is widely accepted in the mechanics of solids. However, at the micro and nanoscale, the microstructure plays a crucial role and cannot be ignored. At these scales, the models representing a discrete […] Read More >