Lyophilizer Freeze drying Alpha 1-4
| Extraction of water from frozen material through sublimation for conservation of sensitive components
| Lyophilizer
| Biomedical Core Facility (BCF)
| Amir Grau |
|  |
|
MinION (Oxford Nanopore)
| Long-read DNA-seq
| Long read sequencing
| Azrieli-Technion Genomics Center
| Liat Linde |
| |
|
Incucyte SX5
| High throughput, continuous live cell imager transmitted and fluorescence
| Live-Cell Analysis System
| Biomedical Core Facility (BCF)
| Maya Holdengreber |
| |
|
LC-MS-MS
| | Liquid Chromatography; Mass Spectrometry
| The Center for Research in Environmental Engineering,
Analytical Laboratory for Micro-Pollutants
| Nura Azzam |
| | |
Lipidomics Services
| Lipidomics Services
| Lipidomics
| Biomedical Core Facility (BCF)
| Ifat Abramovich |
| |
|
Life Canvas Smart SPIM Lightsheet
| Lasers: 405, 488, 561, 642 nm. Objective lenses:x1.8 x3.6, x9 x15,
| Lightsheet microscope for imaging large cleared tissue samples
| Biomedical Core Facility (BCF)
| Maya Holdengreber |
| |
|
Lightboard recording studio
| | Lightboard
| The Center for Promotion of Learning and Teaching
| Olga Chuntonov | | |
|
Zeiss Z7 Light Sheet Fluorescence Microscope
| Dual beam illumination, 2 Cameras, Full incubation, 4 Lasers: 405, 488, 561, 638nm. Live imaging. Objectives: 2.5x (for clearing and water imaging), 5x,
10x ,20x, 40x
| Light Sheet Microscope for cleared samples and live imaging
| Life Sciences and Engineering Infrastructure Center (LSE)
| Nitsan Dahan |
| |
|
Olympus BX51 Light Microscope
| light microscopewith a CCD camera
| Light Microscope
| EMC - The Electron Microscopy Center
| Yaron Kauffmann |
| |
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Academic Tools and Tutorials
| | Library Services
| Technion libraries
| Moti Yeger | | |
|
Advanced Research Assistance
| | Library Services
| Technion libraries
| Moti Yeger | | |
|
BI reports
| Display publications in your personal website
| Library Services
| Technion libraries
| Moti Yeger | | |
|
Biboxx
| | Library Services
| Technion libraries
| Moti Yeger | | |
|
The Historical Archive
| X-ray diffraction of the organic compounds - Mo and Cu radiation sources
| Library Services
| Technion libraries
| Moti Yeger | | |
|
3D Scanning
| Eva Lite scanner from Artec 3D
| Laser scanner
| Architecture recources center - Media Lab
| Haim Zinger | | |
|
Laser cutter (VLS 4.60, Universal Laser Systems)
| Laser cutting technology enables cutting complex shapes without the need for tooling. During the laser cutting procedure, there is laser beam used to cut different materials like plastic, wood, rubber, etc. The technology also can be used for marking and engraving. The laser cutter is equipped with 60W power laser and a standard 2 inch focusing lens, the average size of a focus point is 0.127mm. High-Power Density-Focusing Optics (HPDFO) lens that gives much smaller focus point (0.025mm) is also available.
| Laser cutter
| GTEP Fuel Cells Lab
| Irena Levin |
| |
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Stortz image 1 S,LED 300, Endoflator 50 Laparascope
| Endoflator 50 Laparascope
| Laparascope
| Pre Clinical Research Authority
| Dvir Mintz |
| |
|
Cerhec S.A.R.L.
| Laboratory furnace for tensile testing (up to 800 deg C)
| Laboratory furnace
| IMT- Israel Institute of Materials Manufacturing Technologies
| Roman Biletskiy |
| |
|
Kelvin Probe (NRH020 KP Technologies)
| The Nitrogen Relative Humidity Chamber is equipped with a non-scanning Kelvin Probe, which is a non-contact, non-destructive vibrating capacitor device used to measure the work function of conducting materials or surface potential of semiconductors. This system is equipped with a high intensity monochromator light source (Horiba Jobin Yvon S.A.S) that enables measuring CPD at different wavelengths.
| Kelvin Probe
| GTEP Hydrogen Technologies Lab
| Karam Yassin |
| |
|
IVF
| IVF
| IVF
| Pre Clinical Research Authority
| Dvir Mintz |
| |
|
Nano ITC, TA Instruments
| Determine binding affinity by heat changes during molecular binding to (deltaG, Kd, kon, koff)
| Isothermal Titration Calorimeter
| Technion Center for Structural Biology (TCSB)
| Yael Pazy Benhar |
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Odyssey M
| 488, 520, 685, 785 nm, Epi-illumination and Trans-illumination
| Infrared Imaging scanner
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
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Linn Furnace
| Inductive heating furnace. Max. temp. 1500 °C
| Induction heating
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
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Vim Furnace
| Vacuum induction melting furnace. Max. temp. 1600 °C
| Induction heating
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
IVIS Lumina X5
| Quantitative fluorescence and bioluminescence imagin, with high-resolution 2D X-ray
| In Vivo Imaging System
| Biomedical Core Facility (BCF)
| Galit Saar |
| |
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IVIS Spectrum CT
| Quantitative fluorescence and bioluminescence imaging with spectral unmixing and low dose CT imaging
| In Vivo Imaging System
| Biomedical Core Facility (BCF)
| Galit Saar |
| |
|
MILabs VECTor7 PET/SPECT/CT/OI
| PET/SPECT/CT/OI system for small animals
| In Vivo Imaging System
| Biomedical Core Facility (BCF)
| Galit Saar |
| |
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ImageStream
| Imaging Flow Cytometer. Lasers: 405, 488, 561, 642 nm. HTS system.
| Imaging FACS Analyzer
| Life Sciences and Engineering Infrastructure Center (LSE)
| Aviv Lutaty |
| |
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Image Analysis
| Support for performing complex analyzes and deep learning. Imaris, Image pro premier, ImageJ, Matlab, and Python.
| Image Analysis
| Biomedical Core Facility (BCF)
| Eilam Golan Zagagy |
| |
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Protein structure determination software
| Protein structure determination software, molecular building and structure analysis
| iMac workstations with software
| Technion Center for Structural Biology (TCSB)
| Yael Pazy Benhar |
| |
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Inductively Coupled Plasma (ICP)
| ICP-OES is an analytical technique that can be used to measure elements in a sample
| ICP-OES
| The Center for Research in Environmental Engineering
| Naama Manor Korin |
| | |
HVOF coating machine
| Thermal spray system
| HVOF technology
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
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ATLAS Cluster
| | HTC (High Throughput Computing)
| ATLAS Cluster
| David Cohen |
| | |
Dual beam Ga+ Helios G3 FIB+SEM
| Ga+ FIB, HRSEM, EDS, EBSD. Material cross- srectioning, TEM lamella preparation, failure analysis, nano-patterning, high resolution imaging.
| HRSEM and (Ga+) FIB
| RBNI FIB Lab
| Larisa Popilevsky |
| | |
NYX Cluster
| | HPC (High Performance Computing)
| NYX Cluster
| David Cohen |
| | |
Histology Services Laboratory
| Tissue processing, paraffin and frozen sectioning, staining
| Histology Services Laboratory
| Biomedical Core Facility (BCF)
| Katren Sakran |
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EmulsiFlex C3
| High-Pressure Homogenizer
| High-Pressure Homogenizer
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
Biotek Cytation 5
| Automated high content high throughput imaging, live imaging, up to 8 plates
| High Content Imaging
| Life Sciences and Engineering Infrastructure Center (LSE)
| Nitsan Dahan |
| |
|
Carbolite Gero furnace HTK 25 GR
| The graphite furnace operates with vacuum or gases Nitrogen / Argon. Max. temp. 2200 °C
| Heating
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
Furnace Nabertherm HT 40/16
| High temperature furnace with fibre insulation, max. temp. 1600 °C
| Heating
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
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Furnace Nabertherm HT 40/18
| High temperature furnace with fibre insulation, max. temp. 1800 °C
| Heating
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
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Furnace Nabertherm N250/85 HA
| Air circulation chamber furnace, max. temp. 850 °C
| Heating
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
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Furnace Nabertherm T10/11
| Electrically heated furnace for melting and holding, max. temp. 1100 °C
| Heating
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
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|
Pyrolyse retort
| Debinding system (phenolic binder)
| Heating
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
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Tube Furnace
| Furnace, max. temp. 1600 °C
| Heating
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
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|
Vacuum Furnace SecoWarwick
| Temperature range up to 1200 degrees , advanced cooling options.
| Heat treatment, Vacuum Furnace
| IMT- Israel Institute of Materials Manufacturing Technologies
| Leonid Chernobylskiy |
| |
|
AI & HPC cluster
| GPU servers
| GPU servers
| AI & HPC cluster
| Gennadi Zaidsher |
| |
|
Glove Box (VTI)
| The glove box provides a high quality controlled environment, designed for handling materials sensitive to oxygen and water. The attainable purity of this system is H2O < 1ppm, O2 < 1ppm. The workstation is equipped with large and small antechambers and a user-friendly PLC controller.
| Glove Box
| GTEP Fuel Cells Lab
| Irena Levin |
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Fusion FX7 Edge Spectra
| Chemiluminescence, UV, IR and RGB epi-illumination for fluorescence and white epi- and transillumination detection
| Gel Documentation System
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
Gas-Chromatograph (GC) – Agilent 7890A
| It is used to analyze and identify volatile substances in the gas or liquid phase. The GC is equipped with TCD and FID detectors as well as CTC auto sampler unit and a controlled valve system for continuous sampling. Development of techniques to evaluate H2 and O2 in complicated system is also possible.
| GC Chromatography
| GTEP Hydrogen Technologies Lab
| Karam Yassin |
| |
|
Pentax EPK-1 Gastroscope and Colonoscope
| Gastroscope and Colonoscope
| Gastroscope and Colonoscope
| Pre Clinical Research Authority
| Dvir Mintz |
| |
|
JGMaker
| Dual independent extruders, different filaments (PLA, Pet-g, ABS)
| Fused deposition modelling (FDM)
| IMT- Israel Institute of Materials Manufacturing Technologies
| Leonid Chernobylskiy |
| |
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FTIR
| | FTIR
| The Lab for Physical Measurements, physical properties of materials
| Inna Zeltser |
| |
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FTIR
| Nicolet iS-50, Thermo, (ATR, FT-IR) 500- 4000cm-1
| FTIR
| The Lab for Physical Measurements, physical properties of materials
| Inna Zeltser |
| |
|
Nicolet FTIR Spectrometer
| Diamond ATR
| FTIR
| The Center for Research in Environmental Engineering,
Analytical Laboratory for Micro-Pollutants
| Nura Azzam |
| | |
Nicolet iS50 FTIR Spectrometer (Thermo Scientific)
| The Nicolet iS50 FTIR is equipped with VeeMAX III specular reflection accessory with ATR (PIKE Technologies), offering continuous variable angle of incidence and a variety of crystal plates to selectively control the depth of penetration of the IR beam into the sample. ATR applications include the study of layered samples, coatings, release agents, monolayers on silicon and chemical migration studies.
| FTIR
| GTEP Hydrogen Technologies Lab
| Karam Yassin |
| |
|
Electro heating – Ohmic heater
| | Food Technology - Sterilization
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Steam food Autoclave
| Measured Inner Package tmp via Process
| Food Technology - Sterilization
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
High Pressure Homogenizer
| 1500 bar. 0.25 lit/min
| Food Technology - Size Reduction
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Various Grinder and Millers
| | Food Technology - Size reduction
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Dry extruder (TVP) + coextrusion
| | Food Technology - Shape Processing
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Food high moisture extruder
| 1 kg/hr. Dual screw
| Food Technology - Shape Processing
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Continuity Centrifuge
| Liquid liquid. Solid liquid. 17000 g. 5 lit/min
| Food Technology - Separation
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
UF Filtration
| 0.54 square meter Membrane
| Food Technology - Separation
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Plate Heat Exchanger
| Up to 6 lit/min, 100 °C
| Food Technology - Pasteur
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Double jacket mixing steam pot
| 15L
| Food Technology - Mixing
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Stephan mixer
| 15L
| Food Technology - Mixing
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
HPP
| Up to 8000 bar
| Food Technology - High pressure processing
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Sensory Evaluation Lab
| Designed per ISO 8589 standards
| Food Technology - Food
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Stirred falling film evaporator
| 30 l/hr
| Food Technology - Evaporation
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Drum Dryer Vaccum
| 4 l/hr
| Food Technology - Drying
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Freeze Driers
| Drying liquids into powder. up to 3 Kg batch
| Food Technology - Drying
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Spray Dryer
| Drying liquids into powder. 1~2 Kg/hr
| Food Technology - Drying
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Tweedy Mixer for Dough
| High shear strength. up to 15 Kg
| Food Technology - Dough
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
Pulsed Electric Field (PEF)
| 24KV 20µs 300Hz
| Food Technology - Cell Perforation
| Carasso FoodTech Innovation Center
| Yair Glick |
| |
|
GE OEC 9900 elite Fluoroscope
| Fluoroscope
| Fluoroscope
| Pre Clinical Research Authority
| Dvir Mintz |
| |
|
Qubit
| DNA/RNA quantification
| Fluorimeter for DNA/RNA quantification
| Azrieli-Technion Genomics Center
| Liat Linde |
| |
|
Axio Imager Z1 upright microscope
| Fully motorized upright fluorescent microscope. Equipped with a camera.
Motorization includes: Z sectioning, objectives, filters, light and fluorescence intensities
| Fluorescence Microscope
| Life Sciences and Engineering Infrastructure Center (LSE)
| Nitsan Dahan |
| |
|
Axio Imager Z2 upright
| Upright microscope. Suited for fixed specimens. Motorized stage and X-cite metal halide light illumination, High resolution monochrome Zeiss Axiocam 807 camera , and Zeiss Axiocam 105 color camera for brightfield and polarized light.
| Fluorescence Microscope
| Biomedical Core Facility (BCF)
| Maya Holdengreber |
| |
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Axio observer inverted
| Inverted microscope for transmitted and fluorescence widefield microscopy of fixed specimens and time lapse of live samples
| Fluorescence Microscope
| Biomedical Core Facility (BCF)
| Maya Holdengreber |
| |
|
Leica DMI8 inverted Fluorescent Microscope
| Monochrome and color camera. Inverted. For fluorescence and histology imaging
| Fluorescence Microscope
| Life Sciences and Engineering Infrastructure Center (LSE)
| Nitsan Dahan |
| |
|
Zeiss Cell Observer inverted Fluorescent Microscope
| Fully incubated, 2 cameras: HD and HS. Inverted. Live imaging
| Fluorescence Microscope
| Life Sciences and Engineering Infrastructure Center (LSE)
| Nitsan Dahan |
| |
|
Zeiss Celldiscoverer 7
| High content screening live cell inverted widefield imaging system
| Fluorescence Microscope
| Biomedical Core Facility (BCF)
| Maya Holdengreber |
| |
|
Olympus SZX16 Fluorescent Binocular
| 2 Objectives: X0.8 and X1.6
| Fluorescence Binocular
| Life Sciences and Engineering Infrastructure Center (LSE)
| Nitsan Dahan |
| |
|
Software: Cytobank
| Cloud-based platform for the analysis, storage, and sharing of flow and mass cytometry data
| Flow cytometry Data analysis software
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
Software: FCS Express
| Flow cytometry data analysis software
| Flow cytometry Data analysis software
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
Software: FCS Express / FlowJo
| Flow Cytometry analysis
| Flow cytometry Data analysis software
| Life Sciences and Engineering Infrastructure Center (LSE)
| Aviv Lutaty |
| |
|
Software: FlowJo
| Flow cytometry data analysis software
| Flow cytometry Data analysis software
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
Ellipsometer Multi-layer measurements
| Wave length 193-2500nm
| Film thickness and refractive index measurement
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
Film stress measurement (Tencor FLX-2320)
| | Film stress measurement
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
Film Processor
| X-ray film processor - For radioactive and ECL membranes
| Film developing processor
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
Molecular Vapor Deposition (AMTS 100E)
| | Film deposition
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
Plasma-Assisted Atomic Layer Deposition
| Ultratech/ Cambridge Nanotech Fiji G2
| Film deposition
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
3D Printing
| Basic 3D printing printers with high volume pinting capabilties
| FDM 3D printing
| Architecture recources center - TCOM Digital Lab
| Yair Rahabi |
| |
|
BD FACS ARIA III
| 4-way sorting. Lasers: 375nm, 405nm, 488nm, 561nm, 633nm
| FACS Sorter
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
BD FACS ARIA III
| 4-way sorting. Lasers: 407, 488, 561, 633nm
| FACS Sorter
| Life Sciences and Engineering Infrastructure Center (LSE)
| Aviv Lutaty |
| |
|
BD FACS Melody
| 4-way sorting. Lasers: 405, 488, 640 nm
| FACS Sorter
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
BigFoot Sorter
| Lasers: 405, 488, 561, 640 nm. High throughput, Single-cell fast sorting
| FACS Sorter
| Life Sciences and Engineering Infrastructure Center (LSE)
| Aviv Lutaty |
| |
|
FACSDiscover S8
| Full spectrum and image-based cell sorter, lasers: 349, 405, 488, 561 and 637 nm
| FACS Sorter
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
TYTO
| Contamination-free within the disposable, fully closed MACSQuant Tyto Cartridge
| FACS Sorter
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
