BD FACS Calibur
| Lasers: 488, 635 nm
| FACS Analyzer
| Life Sciences and Engineering Infrastructure Center (LSE)
| Aviv Lutaty |
|  |
|
CytoFLEX LX, 5 lasers, HTS
| Lasers: 375, 405, 488, 561, 635 nm. HTS system, High sensitivity, High resolution.
| FACS Analyzer
| Life Sciences and Engineering Infrastructure Center (LSE)
| Aviv Lutaty |
| |
|
FACSymphony A5 SE with HTS
| Spectral-enabled cell analyzer. Lasers: 349, 405, 488, 561, 637nm. HTS system
| FACS Analyzer
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
LSR II
| Lasers: 355, 405, 488, 635 nm. HTS system
| FACS Analyzer
| Life Sciences and Engineering Infrastructure Center (LSE)
| Aviv Lutaty |
| |
|
LSR SORP, 5 lasers, HTS
| Lasers: 405, 488, 561, 635 nm. HTS system
| FACS Analyzer
| Life Sciences and Engineering Infrastructure Center (LSE)
| Aviv Lutaty |
| |
|
LSR-Fortessa
| Lasers: 355, 405, 488, 640 nm
| FACS Analyzer
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
LSR-Fortessa with HTS
| Lasers: 355, 405, 488, 561, 640 nm. HTS system
| FACS Analyzer
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
Alox Oxidation Furnace
| Low temp wet oxidation
| Fab
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
Technion Statistics Laboratory
| Biostatistics, Regression, Machine Learning, Mixed Models, Factor Analysis, Structural Equation Models
| Experimental design and analysis
| Technion Statistics Laboratory
| Tatiana Umansky |
| |
|
E-beam Evaporator (Airco Temescal BJD 1800)
| | Evaporator
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
E-beam Evaporator (Airco Temescal FC 1800)
| | Evaporator
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
E-beam Evaporator (Evatec BAK-501A)
| | Evaporator
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
E-beam Evaporator (VST TFDS-184)
| | Evaporator
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
Thermal Evaporator (Vinci PVD-4)
| | Evaporator
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
Thermal Cycling Oven
| 150C to -80C
| Equipment testing
| Asher Space Research Institute
| Lee Nudel |
| |
|
Clean room
| Clean room 100,000
| Equipment Assembly
| Asher Space Research Institute
| Lee Nudel |
| |
|
GPS simulators
| Simulating GPS RF Signals
| Engineering
| Asher Space Research Institute
| Lee Nudel |
| |
|
Controlled environment vitrification system (CEVS)
| Cryo-TEM specimen preparation under controlled conditions
| Electron microscopy specimen preparation
| Technion Center for Electron Microscopy of Soft Matter
| Ellina Kesselman |
| |
|
Leica ACE Freeze fracture system
| Freeze-fracture-replication and cryo-SEM specimen preparation. Possible platinum and chromium coating.
| Electron microscopy specimen preparation
| Technion Center for Electron Microscopy of Soft Matter
| Olga Kleinerman |
| |
|
Leica UC7 Ultramicrotome
| Thin sections preparation for TEM, surface polishing of SEM samples.
| Electron microscopy specimen preparation
| Technion Center for Electron Microscopy of Soft Matter
| Ellina Kesselman |
| |
|
Safematic Coating system
| Carbon or Iridium coating system for SEM and TEM specimens
| Electron microscopy specimen preparation
| Technion Center for Electron Microscopy of Soft Matter
| Olga Kleinerman |
| |
|
EM AFS2
| Freeze Substitution and Low Temperature Embedding System
| Electron microscopy
| Biomedical Core Facility (BCF)
| Lihi Shaulov |
| |
|
FEI Tecnai G2, Cryo-TEM and TEM
| Cryo-TEM, TEM
| Electron microscopy
| Technion Center for Electron Microscopy of Soft Matter
| Olga Kleinerman |
| |
|
K850 Critical Point Dryer
| Critical Point Dryer
| Electron microscopy
| Biomedical Core Facility (BCF)
| Lihi Shaulov |
| |
|
Q150T ES
| Combined system for sputter coating or carbon/metal evaporation
| Electron microscopy
| Biomedical Core Facility (BCF)
| Lihi Shaulov |
| |
|
TEM - FEI Talos L120C
| Transmission electron microscope
| Electron microscopy
| Biomedical Core Facility (BCF)
| Lihi Shaulov |
| |
|
Ultramicrotome Leica EM UC7
| Thin Sections at Room and Cryo Temperatures
| Electron microscopy
| Biomedical Core Facility (BCF)
| Lihi Shaulov |
| |
|
3D Metal printing Arcam A2X
| High-temperature capability, 200x200x380mm , metal alloy support.
| Electron Beam Melting (EBM)
| IMT- Israel Institute of Materials Manufacturing Technologies
| Leonid Chernobylskiy |
| |
|
Gamry Reference 3000 Potentiostat / Galvanostat
| low currents, high voltage
| Electrochemical research/corrosion tesing
| IMT- Israel Institute of Materials Manufacturing Technologies
| Gennady Kozyukin |
| | |
Versastat 3 Potentiostat / Galvanostat
| low currents
| Electrochemical research/corrosion tesing
| IMT- Israel Institute of Materials Manufacturing Technologies
| Gennady Kozyukin |
| | |
Combined EEG-fMRI
| Simultaneous EEG-fMRI for human
| EEG-fMRI
| May Blum Dahl Technion Human MRI Research Center (TecH MRC)
| Daphna Link-Sourani |
| |
|
Tube Furnaces for Dry Oxidation
| Tube Furnaces for Dry Oxidation (BTI-Bruce RTRI-878)
| Dry oxidation
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
Large scale Drone scans
| DJI Mavic pro2
| Drone flight
| Architecture recources center - Media Lab
| Haim Zinger | | |
|
Drilling machine
| Used to cut holes in a workpiece
| Drilling
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
Tapestation 4200 and 2200 (Agilent)
| DNA/RNA quality
| DNA/RNA QC
| Azrieli-Technion Genomics Center
| Liat Linde |
| |
|
Qiacube Connect (Qiagen)
| DNA/RNA extraction
| DNA/RNA Extraction
| Azrieli-Technion Genomics Center
| Liat Linde |
| |
|
DMA Analyzer
| MCR 702e Multi Drive (Anton Paar) is instrument for the dynamic mechanical analysis of solid, soft, and liquid samples. Perform dynamic mechanical analysis in bending, tension, compression, and torsion, standard and highly sophisticated rheological measurements as well as thermomechanical analysis (TMA) with one instrument.
| DMA analyzer
| The Lab for Physical Measurements, physical properties of materials
| Inna Zeltser |
| |
|
CDs Optical Measurements
| CDs Optical Measurements (Vickers micro-system)
| Dimension measurement
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
Dilatometer (DIL 402 Expedis Select, Netzsch)
| Dilatometry is the method of choice for highly precise measurement of dimension changes to solids at a programmed temperature change and with negligible sample strain. The dilatometer in the FC lab is equipped with a dual pushrods system that enables doing measurements in a dual or a differential mode. The maximum sample temperature is 1150°C, the range of heating rates is 0.001-50 K/min. Measurements could be done in vaccuum, nitrogen or argon atmospheres. Samples of diameters 4,6 and 8 mm and lengths up to 52 mm could be tested. Several reference samples made of Aluminium Oxide are avalable.
| Dilatometer
| GTEP Fuel Cells Lab
| Irena Levin |
| |
|
QIAcuity Digital PCR
| Digital real-time PCR
| Digital qPCR
| Azrieli-Technion Genomics Center
| Liat Linde |
| |
|
Nano DSF, Prometheus, Nanotemper
| Label-free protein stability analysis by monitoring intrinsic fluorescence (tryptophan and tyrosine) changes by temperature gradient, with additional aggregation detection via back reflection technology.
| Differential Scanning Florimetry
| Technion Center for Structural Biology (TCSB)
| Yael Pazy Benhar |
| |
|
Dicer (Disco DAD3350)
| | Dicing
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
DCS 3+
| DSC 3+ system (from -150oC up to 500oC), Mettler Toledo
| DCS 3+
| The Lab for Physical Measurements, physical properties of materials
| Inna Zeltser |
| |
|
CVD for growth Graphene
| CVD for growth Graphene, hBN and TMDC, Transfer station , Furnce annealing, and Raman spectroscopy
| CVD
| 2D Materials
| Assael cohen |
| |
|
ATM Brlilliant 240 Saw
| Abrasive cut-off machine for workpieces up to 95 mm. dia.
| Cutting
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
Bandsaw Blade machine
| Cut-off machine for workpieces up to 190 mm. dia.
| Cutting
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
Bruker SkyScan 1276 MicroCT
| High speed, high resolution ex-vivo and in-vivo micro-CT scanner. Spatial resolution down to 2.8µm ex-vivo and 10µm in-vivo
| CT
| Biomedical Core Facility (BCF)
| Galit Saar |
| |
|
Leica CM1850 Cryostat
| Frozen sectioning
| Cryostat
| Biomedical Core Facility (BCF)
| Katren Sakran |
| |
|
Leica GP2
| Cryo-TEM specimen preparation under controlled conditions
| Cryo-TEM specimen preparation
| Technion Center for Electron Microscopy of Soft Matter
| Zipora Lansky |
| |
|
Leica ICE high pressure freezing system
| Cryo-SEM specimen vetrification
| Cryo-SEM specimen preparation
| Technion Center for Electron Microscopy of Soft Matter
| Olga Kleinerman |
| |
|
Salt Spray Cabinet
| 450L, prohesion option
| Corrosion testing
| IMT- Israel Institute of Materials Manufacturing Technologies
| Gennady Kozyukin |
| | |
Contact Angle Goniometer
| Contact Angle Goniometer
| Contact angle measurement
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
Confocal Zeiss LSM 700
| Lasers: 405, 488, 555, 633 nm Inverted microscope
| Confocal Microscope
| Biomedical Core Facility (BCF)
| Maya Holdengreber |
| |
|
Confocal Zeiss LSM 700
| Inverted confocal, Lasers: 405, 488, 555, 639 nm
| Confocal Microscope
| Life Sciences and Engineering Infrastructure Center (LSE)
| Nitsan Dahan |
| |
|
Confocal Zeiss LSM 710
| Inverted confocal, Lasers: 405, 454, 488, 514, 543, 639nm. GaAsP detectors. Full incubation for live imaging
| Confocal Microscope
| Life Sciences and Engineering Infrastructure Center (LSE)
| Nitsan Dahan |
| |
|
Confocal Zeiss LSM 880
| Lasers: 405, 458, 488, 514, 561, 633 nm upright microscope Airyscan super resolution detector, Fast mode, GaAsP- spectral detector
| Confocal Microscope
| Biomedical Core Facility (BCF)
| Maya Holdengreber |
| |
|
Confocal Zeiss LSM 880 multi photon
| Lasers: 458, 477, 488, 514, 561, 633 nm and multi-photon tunable laser 690-1040 nm and Spectral imaging
| Confocal Microscope
| Life Sciences and Engineering Infrastructure Center (LSE)
| Nitsan Dahan |
| |
|
Confocal Zeiss LSM 900 Inverted
| Lasers: 405 488 561 640 nm inverted microscope, Airyscan2 super resolution detector, MLPX 2 and 4; 2 GaAsP detectors
| Confocal Microscope
| Biomedical Core Facility (BCF)
| Maya Holdengreber |
| |
|
Confocal Zeiss LSM 900 Upright
| Lasers: 405 488 561 640 nm upright microscope, Airyscan2 super resolution detector, MLPX 2 and 4; 2 GaAsP detectors
| Confocal Microscope
| Biomedical Core Facility (BCF)
| Maya Holdengreber |
| |
|
Confocal Zeiss LSM 980 AiryScan
| Lasers: 405, 454, 488, 514, 543, 639nm. Spectral detector, AiryScan, uper-resolution. Full incubation for live imaging
| Confocal Microscope
| Life Sciences and Engineering Infrastructure Center (LSE)
| Nitsan Dahan |
| |
|
Microscope system Axioskop 40, ZEIS
| | Confocal Microscope
| Grand Water Research Institute (GWRI)
| Ilana Barzilay |
| | |
Spinning Disk Confocal Olympus IXplore-Spin
| Lasers: 405 488 561 640 nm, Prime BSI Express monochrome camera
| Confocal Microscope
| Biomedical Core Facility (BCF)
| Maya Holdengreber |
| |
|
Predictive chemical kinetic model development
| iSAF equipment
| Computational
| iSAF - The Israeli Sustainable Aviation Fuel
| Keren-Or Rosner |
| |
|
Model refinement using quantum chemical computations
| iSAF equipment
| Computational
| iSAF - The Israeli Sustainable Aviation Fuel
| Keren-Or Rosner |
| |
|
Chemical kinetic Model generation using the Reaction Mechanism Generator software
| iSAF equipment
| Computational
| iSAF - The Israeli Sustainable Aviation Fuel
| Keren-Or Rosner |
| |
|
EXCITECH CNC ROUTER 5 axis
| Large volume CNC routing machine soft materials
| CNC Routing
| Architecture recources center - Design-tech
| Cris Nannig | | |
|
EXCITECH SHMS1325C CNC ROUTER
| 1.22m * 2.44m work envelope CNC routing machine soft materials
| CNC Routing
| Architecture recources center - TCOM Digital Lab
| Yair Rahabi |
| |
|
GC-MS
| Connected to PAL sample injector that enables liquid, headspace and SPME injections with the same autosampler
| Chromatography; Mass Spectrometry
| The Center for Research in Environmental Engineering,
Analytical Laboratory for Micro-Pollutants
| Irena Kuzmenkov |
| | |
Q-TOF LCMS Bruker
| ESI APCI Solid prob APPI
| Chromatography, Mass Spectrometry
| Chemical and Surface Analysis Lab
| Larisa Panz |
| |
|
Q-TOF LCMS Waters
| ESI
| Chromatography, Mass Spectrometry
| Chemical and Surface Analysis Lab
| Larisa Panz |
| |
|
GC-MS
| | Chromatography Mass Spectrometry
| Chemical and Surface Analysis Lab
| Larisa Panz |
| |
|
AutoChem II 2920 Chemisorption Analyzer
| The instrument enables the researcher to obtain valuable information about the physical properties of catalysts, catalyst support, and a variety of other materials. Researchers can investigate active metal surface area, surface acidity, distribution and strength of active sites, BET surface area, and more. The AutoChem II performs pulse chemisorption, temperature-programmed reduction (TPR), desorption (TPD), oxidation (TPO), and reaction analyses. Multiple experiments can be run using the same sample.
| Chemisorption Analyzer
| GTEP Hydrogen Technologies Lab
| Karam Yassin |
| |
|
Bruker (Tensor 27) Fourier Transform InfraRed (FTIR)
| Bruker (Tensor 27) Fourier Transform InfraRed (FTIR)
| Chemical and Surface Analysis
| Chemical and Surface Analysis Lab
| Rachel Edrei |
| |
|
CEM Cop. (Discover) microwave reactor
| CEM Cop. (Discover) microwave reactor
| Chemical and Surface Analysis
| Chemical and Surface Analysis Lab
| Rachel Edrei |
| |
|
Horiba Jobin Yvon (LabRAM HR Evolution) Micro-Raman
| Horiba Jobin Yvon (LabRAM HR Evolution) Micro-Raman
| Chemical and Surface Analysis
| Chemical and Surface Analysis Lab
| Rachel Edrei |
| |
|
Jobin Yvon (Fluorolog-3) Fluorometer
| Jobin Yvon (Fluorolog-3) Fluorometer
| Chemical and Surface Analysis
| Chemical and Surface Analysis Lab
| Rachel Edrei |
| |
|
Shimadzu (UV-1800) Spectrophotometer
| Shimadzu (UV-1800) Spectrophotometer
| Chemical and Surface Analysis
| Chemical and Surface Analysis Lab
| Rachel Edrei |
| |
|
TESCAN (Vega-II) Scanning Electron Microscopy (SEM)
| TESCAN (Vega-II) Scanning Electron Microscopy (SEM)
| Chemical and Surface Analysis
| Chemical and Surface Analysis Lab
| Rachel Edrei |
| |
|
Thermo Scientific CHNS Analyzer (Flash2000)
| Thermo Scientific CHNS Analyzer (Flash2000)
| Chemical and Surface Analysis
| Chemical and Surface Analysis Lab
| Rachel Edrei |
| |
|
Wolpert Charpy Impact
| Charpy V,U. Two scales [0-150J and 0-300J] (from -196 deg C up to room temperature)
| Charpy Impact, Analog
| IMT- Israel Institute of Materials Manufacturing Technologies
| Roman Biletskiy |
| |
|
Mehoudar Center for Inventors
| Center for Inventors
| Center for Inventors
| Mehoudar Center for Inventors
| Boaz Drori |
| |
|
Nepa21 Super Electroporator
| Cell transfection
| Cell transfection
| Azrieli-Technion Genomics Center
| Liat Linde |
| |
|
Avestin EmulsiFlex C3
| An efficient and easy to use technique for cell disruption and liposome/emulsion processing
| Cell Disruption High Pressure Homogenizer
| Technion Center for Structural Biology (TCSB)
| Yael Pazy Benhar |
| |
|
C-V Plotter (MDC)
| | C-V measurement
| MNFU - Micro-Nanoelectronics Fabrication Unit
| Yana Milyutin |
| |
|
Briviscop 3000H
| Up to 3000 kgf load with 10mm ball indenter
| Brinell Hardness Tester
| IMT- Israel Institute of Materials Manufacturing Technologies
| Keren Zohar Hauber |
| |
|
IDEXX Catalist One
| Blood Biochmestry
| Blood and Urinary Lab
| Pre Clinical Research Authority
| Dvir Mintz |
| |
|
IDEXX Coag Dx
| Blood Coagulation
| Blood and Urinary Lab
| Pre Clinical Research Authority
| Dvir Mintz |
| |
|
IDEXX ProCyte Dx
| Complite Blood Count
| Blood and Urinary Lab
| Pre Clinical Research Authority
| Dvir Mintz |
| |
|
IDEXX Vetlab UA
| Urinary Analyzer
| Blood and Urinary Lab
| Pre Clinical Research Authority
| Dvir Mintz |
| |
|
IDEXX Vetstat
| Electrolyte and Blood Gas Analyzer
| Blood and Urinary Lab
| Pre Clinical Research Authority
| Dvir Mintz |
| |
|
Sandblasting machine
| Removing rust, paint, corrosion from materials.
| Blasting
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
Sample Preparation for Biomedical electron microscopy services
| Sample preparation and acquisition for scanning and transmission electron microscopy
| Biological electron microscopy
| Biomedical Core Facility (BCF)
| Lihi Shaulov |
| |
|
Octet R8
| Fluidics-free approach to biomolecule kinetic screening and affinity characterization
| Bio-Layer Interferometry (BLI)
| Biomedical Core Facility (BCF)
| Amir Grau |
| |
|
Curing Oven-400v
| Drying cabinet - 200 C (Ex One. M-Flex)
| Bibder Jet 3D printing
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
Depowdering station
| Job box lift station (Ex One. M-Flex)
| Bibder Jet 3D printing
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
Job box and transfer cart
| Printing table with transfer cart (Ex One. M-Flex)
| Bibder Jet 3D printing
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
M-FLEX (3D printer)
| Powder bed Binder Jetting 3D printer (Ex One. M-Flex)
| Bibder Jet 3D printing
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
Powder recycler
| Powder sieving machine (Ex One. M-Flex)
| Bibder Jet 3D printing
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
Printhead, 80pL
| Binder jetting 3D printer prithead (Ex One. M-Flex)
| Bibder Jet 3D printing
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
SLA (3D printer)
| SLA polymer 3D printer
| Bibder Jet 3D printing
| IMT- Israel Institute of Materials Manufacturing Technologies
| Alex Katz |
| |
|
