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The advantage of working with Adeeco:• More Financial Support ٪ ٪• Educational packages• Effective Contract Management • Special Service Plan• Various Sales Methods
Research & Academic Solutions
Environment & Agriculture Solutions
Oil & Gas and Petrochemical Solutions
Pharmaceutical and health Solutions
Content
Analytical Systems .......................................... 3Analytical Systems .......................................... 3
BET.TPR-TPD-TPOBET.TPR-TPD-TPO
Capillary ElectrophoresisCapillary Electrophoresis
Gas Chromatograph
Two Dimensional Gas Chromatograph
Nano Systems ................................................ 12
Ultrasonic Homogenizer 400 w
Electroris
Plasma Nano Colloid Maker (PNC)
Pulse Electrical Explosion Maker (PEE)
Nano Cavitation ............................................. 24
Vacuum Hot Press (VHP)
Spark Plasma Sintering (SPS)
Deposition Systems
Desktop Sputtering Coater DSR1
Desktop Sputtering Coater DST3
Medical & pharmaceutical System ................ 30
Fluorescence Molecular Tomography
Hyperthermia System
Scanning Probe Microscopy Systems ........... 34
Scanning Tunneling Microscope (STM )
Atomic Force Microscopy (AFM)
Our Clients ..................................................... 40
Analytical Systems
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Nano SORD is an automated chemisorption›s analysis instrument. It is a fully auto-
mated system capable of performing all the major dynam-ic techniques required for fully characterizing a catalyst. It is utilize the proven technology for performing the fol-lowing dynamic procedures:• B.E.T. Surface Area• TPD: Temperature Programmed Desorption • TPR: Temperature Programmed Reduction • TPO: Temperature Programmed Oxidation • Pulse Chemisorption (Pulse Titration)
Straight forward operation, PC interface and accessi-bility of controls makes it an ideal choice for routine metal area/dispersion measurements in industry, universities and colleges. This device is one of the most commonly used ones for the determination of nanostructured materi-als properties such as metallic nanoparticles, metallic ox-ides, sulphureous oxides, nanotubes, and other nanostruc-tures.
The most important characteristics of the materials which can be measured by this device are BET surface, distribution and density of the active sites, adsorptive properties of nanoparticles, reduction properties of metal-lic nano oxides, and reaction parameters such as activa-tion energy. One of the important features of this device is its ability to be connected to other detectors, which pro-vides the use of complementary and precise spectroscopic methods.
Features:• High-precision electronic mass flow controllers provide extremely accurate, programmable
gas control. This assures a stable baseline and accurate determination of gas volumes.• A highly sensitive linear thermal conductivity detector (TCD) assure the calibration volume
remains constant over the full range of peak amplitudes so the area under the peak is directly proportional to the volume of gas reacted.
• Clamshell furnace can heat the quartz sample reactor to 1100°C. Any number of ramp rates and sequences facilitate customized experiments.
• Six gas inlet each for the preparation, carrier, and loop gases permit sequential experiments, such as TPR/TPO cycles.
Nano SORD
Application
• Catalysts• Fuel Cells• Partial Oxidation• Catalytic Cracking• Hydrocracking, Hydro
desulfurization, and Hydro d enitrogenation Catalysts
• Fischer-TropschSynthesis • Isomerization• Catalytic Reforming
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SPECIFICATIONS
CapabilityB.E.T. Specific Surface AreaTemperature Programmed TechniquesTPR,TPO and TPD- Pulse Chemisorption (Pulse Titration)
PerformanceSpecific Surface Area: min 0.001 m2/gAccuracy, Volume: ± 1%Reproducibility: 0.5%
Gases
Compatibility: H2 , 0 2 , CO, C02 , NO, N20,N02 , S02 , NH3 , N2 ,Ar, Kr, HeGas flow rate : 0-20 seemInput Pressure (gauge): Up to 3 barGas Lines: 1/8» s.s.
PowerVoltage: 115- 230 VFrequency: 50/60 HzPower: 1800 W
Heating system
Mantle, Max temp : 450 °C- Furnace, Max temp: 1100 °CMantle Power: 500 W- Furnace Power: 800 WController Type : PID via PCProgram Steps : Multiple Ramp, hold (soak)Furnace heating rate: 1-20 °C/min
EnvironmentalAmbient Temperature: 15-50 °CRelative Humidity: 20-80%
Hardware
Micro Thermal Conductivity detector: Dual-filamentTCD Filament Material: Oxidation and ammonia resistantFilament Type: Nickel-IronGas Input Ports: 5 portsLoop Volume: 500 ~LMass Flow Controller: Two MFCs
• Low internal plumbing volume assures high resolution ,fast detector response, and reduces error when calculating gas vol-umes.
• Mass spectrometer port and software integration allows virtu-ally simultaneous detection on both the thermal conductivity detector and mass spectrometer.
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Capillary ElectrophoresisCapillary electrophoresis (CE) is a separation and analytical method of which the differential
migration rates of sample components is caused by an applied electrical field within a capillary, small-diameter polyimide coated fused silica capillary tube usually. “On-column” UV spectro-metric or fluorescence analysis is usually used for detection of sample components through a “window” in the capillary
The versatility of CEP 1 000 is partially originated from itsvarious modes of operation. Based on the separationmechanism, the main modes encompassed by CEP 1 000include:• Capillary Zone Electrophoresis (CZE)• Micellar Electrokinetic Chromatography (MEKC)• Micro-Emulsion Electrokinetic Chromatography (MEEKC)• Capillary Gel Glectrophoresis (CGE)• Capillary lsoelectric Focusing (ClEF)• Capillary lsotachophoresis (CITP)• Capillary Electrochromatography (CEC)
Application
• Food analysis• Pharmaceutical analysis • Bio analysis• Environmental pollutants
analysis• Nonmaterial analysis
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Feature• A fully automated system• Both automatic hydrostatic and electro migration sample injection modes• low-noise ultraviolet/ visible detector• Interchangeable high-voltage power supply• Pre programmable parameters such as injection time, run time, sample voltage, and run
voltage for each sample• The sample chamber has a septum-less seal to control evaporation and contamination of
samples and electrolytes.• To improve accuracy, the CEP 1000 offers an «Auto purge» feature that automatically cleans
the capillaries after each run. After each run, the unit can collect fractions for further analyses
Technical Specifications
Power voltage range Settable 0 to +35 kV supply (Operation under constant voltage)
Pressure systemProgrammable with 0–100 mbar for injection, Washing and Flush-ing with 1 bar.
Autosampler18-position carousel. All vials are randomly accessible from elec-trodes end of capillary
Vials100 μl sample vials, 1 ml or 2 ml buffer vials (polypropylene or glass) with resealing snap caps
Detector Real time UV-Visible detector (190–900 nm)Detector Wavelength accuracy: 1 nmLight source halogen/deuterium lampsSystem control Operating with graphical user interface under windows
Safety featuresLow current limit, Safety sensors at door and cover disabling high voltage diagnostic function
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Performance• High speed, High resolution,
High accuracy, High reproduc-ibility, High quality
• FID detector as default, TCD detector (Optional)
• Split flow control by MFC and setting via software
• Capillary injector (Split/Spirit-less)
• Capillary inlet pressure by EPC (Optional)
• H2 and Air flow control by MFC (Optional)
• Online injection by 6 port valve (Optional)
• PID temperature control• Oven temperature programming
via software (for any step)• Friendly user software, Online
software help in any language
Gas Chromatograph (GC-2550 TG) “GC-2550TG” made according to international stan-
dards, its technical feature and index are in the world high level. It can be chosen between different detectors according to the analytical problem. All commonly used capillary col-umns as well as packed and micro packed columns can be used. It is possible to adjust various temperature programs.
Application
• Petrol-Chemistry• Environmental Protection• Pharmacology• Scientific Research
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Chromatography software• A chromatography software, also known as aChromatography data system (CDS), collects
and analyses chromatographic resultsdelivered by chromatography detectors• Many chromatography software packages are provided bymanufacturers, and many of them
only provide a simple interface to acquiredata. They also provide different tools to analyses these data.
• GC-2550TG software is “integrator”, itcomputes Areas, Height, Area normalization%, retention time, External andInternal calibration.
• It has on line help and on line movies that train thesoftware.
SPECIFICATIONS
Parameter Range Comment
Oven Temperature Ambient ~ 400 º C PID controlInj – Det Temperature Ambient ~ 400 º C PID control
Injector Capillary - Packed 1 PortCapillary mode Split - Splitless AutomaticInjection mode Manual - Online By 6 port Valve
Multiple Injection Online by 10 port valve 2 DetectorDetector FID – TCD FID default
FID Detector High speed Up to 32 HzFID Dynamic range 10 e 7 5 levelFID detection limit 3 X 10 e -12 g/s For Diphenyl
TCD Detector High speed Up to 32 HzTCD filament 2 – 4 filament Rhenium - TungstenGas control Manual / EPC 4 Chanel EPC
Power 220 V AC – 2.5 KW 50 - 60 HzDimension 59 X 44 X 55 W X H X D
Weight 35 Kg
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Two Dimensional Gas ChromatographComprehensive Tow-dimensional chromatography is one of the newest and fast growing tech-
niques for analysis of complex sample. «Duojet» is a Comprehensive tow-dimentional Gas Chro-matograph with Dual jet Cryogenic modulator. «Duojet» can provide reliable tow-dimentional data from complex samples and « Cyrus» is our offer for data processing of the resulting data. We can offer our specially designed modulator for any GC you already have in your laboratory and wish to upgrade it to powerful GC×GC.
Features• The Separation Power of GC×GC is considerably
higher than conventional capillary GC• GC×GC offers better sensitivity than conventional
capillary GC due to the focusing effect of the modula-tion.
• GC×GC generates structured chromatograms which make the technique more suitable for sample screen-ing than conventional capillary GC as it gives
• GC×GC Technique is compatible with all type of injection systems and sample handling techniques used in GC because the first column is conventional.
• GC×GC is simple to interface with TOF MSleading to an exceptionally powerful GC/MS system able to separate and identify the most complex samples.
• GC×GC reduces the need of complex sample prepara-tion procedures as the separation power of the tech-nique is so large to eliminate the interferences critical in conventional GC separations.
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Technical Specifications
General Communication LAN or RS232 Serial ConnectionsInlets Capillary Injectors Split-splitless
Carrier Gas Control
Type Digital Pressure Flow ControllerPressure Full Scale 1000 kPaProgrammable Flow/Pressure 3 Ramp 4plateaus2D GC Column Set Calibration Automatic
Detection System
Type FID at 200-Hz data collection ratelinearity 107detector Gas Flow controller Digital
Cryogenic Modulator
Type Sequential Dual JetCoolant Liquid CO2Refrigerant Flow AdjustableColumn alignment MechanicalModulation Cycle Time Selection Adjustable 0 to 60 sec.Modulation Start Daley YesJet type Steel pipes with Brass Body, Re-
placeableGC control and data acquisition Depends on GC Type
2D data processing
“Cyrus”
Automated Peak Recognition Yes3D Automatic Integration YesSingle or Group Processing yesDisplay selection Rotation 3D color plot, Apex map,
One dimensional chromatogramCalibration Single or multi-level calibrationCalibration fit 1st , 2nd and 3rd order FitSoftware noise reduction filters Yes
Application
• Petroleum & Petro chemistry
• Food & Flavours• Biomedical• Forensic• Environmental• Geochemistry• Chemical / Industrial
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NanoNanoSystemsSystems
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Ultrasonic Homogenizer 400 w we offer one of the most comprehensive ultrasonic homogenizers for dispers-
ing Nano-particles in fluids. This Ultrasonic homogenizer produces higher ampli-tudes with the same electric power than other models in the market thanks to an ideal integration of all components.
Ultrasonic probes have been introduced to markets which are more powerful than ultrasonic bathes. The great advantage of these probes is their ability to trans-fer energy directly to the solution and for much better dispersion.
Feature• Powerful• Flexible module configuration• High amplitude• High efficiency• Economic• Best Industrial design
SpecificationsAmplitude Constant and load- independent amplitude at the transducerPower 400 WFrequency 20 kHz
Interface
Possible with: analog voltageRS 485 interfaceStatus LED’s.PLC interface remote support via RS485.
Protected against Over load, short circuit, over temperatureMains 216-240 VAC- 50/60 HzDimensions 30 × 30× 40 cmWeight 16 kg
Application
Nano-particles, Nano-emul-sions, Liposomes, Dispersing of solid particles, Carbon black dispersions, Aluminum oxide suspensions, Soil samples, Waste water samples, Meat and sausage samples, Insect cells, Brain tissue, Bladder tissue, intestine tissue, Large and Small intestine tissue, Liver tissue, Heart muscle tissue, Lymphocytes, Eukary-otic cells, Saccharomyces cerevisiae, Candida albicans, Escherichia coli, Kidney tissue
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Applications Aim
Nano-particles DispersingNano-emulsions Drop sizes within nm rangeLiposomes Producing of small unilamellar phospholipid vesicles Dispersing of solid particles grain size analysisCarbon black dispersions HomogenizingAluminum oxide suspensions DispersingSoil samples Extraction for determination of pH value, determina-
tion of radio nucleides, etcWaste water samples Homogenizing for determination of harmful sub-
stances, etcMeat and sausage samples Homogenizing for determination of nitratesInsect cells Disruption for protein lay offBrain tissue DisruptionBladder tissue Disruptionintestine tissue DisruptionLarge and Small intestine tissue Disruption Liver tissue Homogenizing for moleculargenetic testsHeart muscle tissue HomogenizingLymphocytes DisruptionEucaryotic cells Disruption for protein lay offSaccharomyces cerevisiae DisruptionCandida albicans Disruption Escherichia coli Disruption for protein lay offKidney tissue Homogenizing
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ElectrorisElectroris is an easy-to-use model
of electrospray deposition (electro spinning) equipment with funda-mental functions and low price. This simple equipment makes samples in various size and purposes. Electroris is suitable for the experiment of a thin film, Nano coating and a nanoparticle, and pattern.
Application
Filtration, Textile manufacturing, Artificial organ components, Tissue engineering, Implant materials, Drug delivery, Wound dressing, Medical textile materials, Composites, Energy storage, Catalyst and enzyme carriers, Sensors, Tissue engineering scaffolds, Electrode sof Li-ion Batteries, Solar Cell and Fuel Cell Electrodes, Optoelectronics, Photoluminescence, Super capacitors, Actuators
Feature• Various polymers and composites have the potential to
be electruspun.• Different product specifications such as porosity,
morphology, diameter, and ability to load beads can be obtained.
• The process is easy and economical.• Many different polymer types such as synthetic,
biodegradable and natural polymers and/or polymer/composite may be processed by Electroris®.
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Specifications
Dimensions 70x70x60 cmWeight 50±1 kgPower requirements 200-240 V AC, 50/60Hz, single-phaseSpinneretsNumber of attachable needles 2Electrospinning distance 5-20 cmSpinneret scanning rate 0-2500 mm/minMotion Range (spinneret position) 0-30 cmSyringe Pump Polymer solution injection rate 0.5 ul/h (syringe diameter=1mm) – 500 ml/h
(syringe diameter=25 mm)Modes of Operation Constant Flow Rate and Volume DispenseCollectorDrum rotation speed 0-3000 rpmLength of drum 30 cmDrum diameter 8 cmCollector with minus voltage up to -20 kV (optional)High voltage 0-35 KV DC, Positive Polarity, Rrecise adjustable (0-SOkV Optional)Digital Voltage MonitoringDigital Current Monitoring (Optional)Heating system room temperature to 50°c
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Plasma Nano Colloid Maker (PNC)Plasma Nano Colloid maker
(PNC) is a Nano maker machine. PNC is utilized to produce a wide range of metallic Nano-Colloids via under water wire explosion process. Average particle size of nanoparti-cles produced by this method is under 100 nm.
In this method, the parameters such as colloids size; concentration of Nano particles in liquid, type of surface treatment and additives can be controlled.
Feature• Ability of producing a wide range of metallic Na-
no-colloids which can be provided in thin wire shape.• A wide range of liquid media including Water, Alco-
hol, and Glycerin and etc. can be applied• Excellent dispersion of Metallic Nano particles in
related liquid• Ability of producing in laboratorial scale with differ-
ent concentrations• Environmental friendly• High productivity
SPECIFICATIONS
MODEL PNC1K PNC8KOutput voltage 0.5-1KV 8 KVInput power 1P 220 VAC 1P 220VACPower consumption 500W 2KWShot period 1-5 sec 1-5 sec
WireMax. diameter 0.25mm 0.4mmExploding length 1-5mm 2-4cm
Input Wire most of conductive metalAverage Particle Size < 100 nmSystem weight 15kg 30kg
Application
The production of a wide range of nano colloids with different concentration in various media.
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Application
The production of different Nano metallic, oxides. Nitrides powder such as Al,Cu,Al2O3,Cuo and etc.
Pulse Electrical Explosion Maker (PEE)Pulse Electrical Explosion maker employs high electric voltage and current to produce metal-
lic and metal oxide nanoparticle in gas media. The primary bulk wire is converted into Nano Powder via explosive process. In this technology, any type of thin conductive wire can be trans-formed into Nano particles.
Feature• The most affordable method among the all methods
applied to produce Nano particles.• High productivity• Massive production.• Environmental friendly.• Ability of producing the great range of materials.
SPECIFICATIONS
Model name PEE10K PEE50KInput power 1P 220 V AC 3P 220VACOutput voltage 8-10KV DC 20-50KV DCPower consumption 3KW 10KWShot Period 1-5 sec 1-5 sec
WireMax. diameter 0.25mm 0.8mmExploding length 3-8cm 10-30cm
Product most of conductive metalProduction rate 20g/hr 150g/hrAverage Particle Size < 100 nmSystem weight 200kg 800kg
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Nano CavitationIt has new technology to make a stable emulsion of
water and fuel including diesel and furnace oil. This emul-sion can be produced with special equipment which is ca-pable to make a great number of cavities in oil droplets causing to make proper places for water nano droplets leading to decrease in fuel consumption 5 to 20% depend-ing on type of fuel and initial percentage of water in fuel.
Feature• High Performance• Full automated system
- reliable process control by PLC
• Easy to use• Economic
Application
• High performance Produc-tion of Nano emulsified fuel: to make fuel saving
• Dispersion of Nano particles in fluids
• Cold pasteurization of nutrition: cost effective milk pasteurization
• Water and liquid food steril-ization
• Increase in efficiency of crude oil cracking process to produce light products
• Edible oil purification from cholesterol and trance oil acid
• Liquid-Liquid Nano-emulsion in pharmaceutical industries
SPECIFICATIONS
R&D SystemPilot SystemIndustrial SystemType of SystemHC-LHC-PHC-IProduct Models150 lit/h3 ton/h15 ton/hCapacity6-356-126-12Operation pressure (Atm)
Material: SS316Hole size: Customer choice(75,100,200,400 micron)
Material: 55316
Material: 55316Reactor module
Material: SS316Hole size: Customer choice(75,100,200,400 micron)
Orifice module
SS316Spiral pipe
Condenser
Full control with PC/PLC- control of valves, vents, pumps-Internal pressure of system and fluid flow Control
Control System
Rotary disk for particle grinding
--Accessories
SS304Structure2 kw10 kw25 kwPower150×100×110200×100×120350×150×90Dimensions (cm)1503501200Weight (kg)
ing on type of fuel and initial pe
• •
• •
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Vacuum Hot Press (model VHP 5015 I) hot pressing is a high-pressure, low-strain-rate powder
metallurgy process for forming of a powder or powder compact at a temperature high enough to induced sintering and creep processes.
With Vacuum Hot Pressing machine, dense forming of materials under the vacuum, high temperature and high pressure is possible and new materials with certain special properties, such as the amorphous phase, reduced material gap, increased strength and rigidity, and even change in the structure of the materials can be obtained.
Feature• High heating and cooling rate• Ability of producing the wide range of metals,
ceramics and composites• Ability of develop temperature and force in system by customer order• Fully automatic control and programmable system • Measuring of compression path and speed• Camera and recording system • User friendly interface• Cost efficient product
SPECIFICATIONSDouble wall stainless steel chamber, water cool, volume 50 lit and door lock sensorHydraulic system consists of a double-acting 15 tone with servo valveWater cooled cold compression rodsInduction furnace max temperature 1500 °cTemperature measurement by thermocouple optionally control by pyrometerAutomatic vacuum system for an ultimate pressure of 5×10-3 barInert gas systemTouchscreen monitor 7 inch TFT
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Spark plasma sinteringvacuum technology introduces a revolutionary high speedpowder consolidation technology known as Spark Plasma Sintering.SPS utilizes high amperage DC pulse current to rapidly and evenlydisperse spark plasma energy between particles. An SPS systemcan process conductive, non-conductive and composite materialsto any level of density, including full density, with high homogeneityand especially strong bonds between particles.
SPS Technology Benefits: • Fast cycle times • Pre-forming and binders NOT necessary • Uniform sintering of like and dissimilar materials • Vaporization of pre-existing contamination • Ease of use • Full density and controlled porosity• Low operating costs• Powder-to-part net and near-net shapes• Minimal grain growth
Application
• Ceramic Applications• Synthesis of FGMs• Materials for Electronic
Applications• Compacting Nano phase
Materials• Corrosion-Resistant,
Ware-Resistant WC/Co Tools• Diamond Grinding Tools
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SPS Specification: • working temperature up to 2500 °C • vacuum: 5 x 10-2 mbar • process gases: Ar / N2 (and others, on request) • servo hydraulic force control • precise, rigid frame with low deformation, accurate guiding of the pressing dies • measuring of the densification path • double-walled water-cooled stainless steel vacuum vessel with a leakage rate less then 1 x 10-3 mbar l/s • easy accessibility • temperature measurement with automatic feeder thermocouples for 0 to 800 °C • temperature measurement with axial pyrometer from 800 to 2500 • freely programmable sintering parameters • freely programmable pulse on/off (1...255 ms) for each segment individually • heating rate up to 1000 C/min • data recording and evaluation of all sintering parameters • user friendly online process management system • hybrid Induction system (Induction with working temperature up to 2200°C)
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Deposition Systems
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Sputter Coater System—DSR1The DST3 is available in two options:The Desktop sputtering system is a precision high vacuum preparation system and the only
instrument to offer the widest range of coating configuration in one single unit. The Desk Sputter Coater model DSR1 is able to coat noble metals - such as Gold (Au) , Silver
(Ag), Palladium ( Pa) and platinum (Pt) thin films on non-conductive or poorly conductive spec-imens uniformly and fine-grain size in fast cycle time. The good design of the system able the user easily to load and unloading of samples and quickly change the target.
DSR1 FEATURESCoating of noble metals -such as
Gold (AU), Silver(AG) , and etc.Touch screen and colorful display.Able to plot sputtering parameters
graphs.Including USB port for graph and
data extraction and software updates.Thickness monitor system for
thickness measuring during coating process
Application
• Fine-grained sputter deposition for high resolu-tion SEM& TEM
• Conductive coating on large scale samples (wafers, compact discs, etc.)
• Metal films using Aluminum, Chromium, Cobalt, Copper, Gold, Silver, Platinum, Molybdenum, Titanium for laboratories and industrial process-es.
• Multiple layer systems.• Conductive carbon films on specimens for X-ray
microanalysis (EDX,WDX) • Fine-grained carbon, metal or carbon/metal mix
coatings for high resolution TEM/SEM
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Specification• Two-stage, direct drive 170 Lm, rotary vane pump.• 150 mm OD x 150 mm Pyrex cylinder chamber.• 0-100 mA switching power supply.• Ultimate Vacuum: Less than 30 millitorr.• Dimensions: 45 Cm H x 50 Cm W x 37 Cm D.• Utilities: 220V-50Hz - 6A.• Touch screen and colorful display; includes features such as a log of the last 200 coatings
carried out.• Gas: Argon – 99.999% (regulated to 2 – 5 psig); recommended but not required.• Manual or automatic Timed and Thickness sputtering.• Control the rate of sputtering to achieve finer grain structure.• High precision quartz crystal thickness monitor.• Protection of samples against heating during sputtering process.• System automatically vents when turned off. Nitrogen venting gas (optional).• Automatically controlled the power of sputtering independent of pressure.• Automatically controlled the temperature of cathode in order to protect the life time of the
magnets.• Data is rapidly entered using fully automatic touch screen control.• Precision metering valve in order to control the vacuum pressure.• Drawing the pressure, thickness and current curves.• Transfer the curves and sputtering process data by USB port to PC. • Shipping Weight: ~ 18 Kg (without vacuum pump). ~ 34 Kg with pump.• ISO 9001-2008 CE conformity.
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Sputter Coater System—DST3The DST3 is available in two options:DST3 S- Linear (or straight) cathodesThe DST3 is a coating system with a larg chamber and turbo molecular-pump. it is suitable to
sputter large single sample with specimen diameter up to 20 cm. Smaller multiple specimens can be sputtered over a similar diameter. To ensure an even deposition ratio over a large diameter, the DST3 is equipped with three sputtering heads. The system is capable to sputter both oxidizing metals and non-oxidizing noble metals.
DST3 A-30 degree angled cathodesDST3 model is a desk sputter
coater equipped with turbo molecu-lar pump.it can sputter metals, semiconductors and dielectric targets. it is also capable to co-sput-ter two or three cathodes simultane-ously by using three angular cath-odes via common focal point.
Application
• Fine-grained sputter deposition for high resolution SEM& TEM• Conductive coating on large scale samples (wafers, compact discs, etc.)• Metal films using Aluminum, Chromium, Cobalt, Copper, Gold, Silver, Platinum, Molybdenum, Titanium for laboratories and industrial processes.• Multiple layer systems.• Conductive carbon films on specimens for X-ray microanalysis (EDX,WDX) • Fine-grained carbon, metal or carbon/metal mix coatings for high resolution TEM/SEM
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DST3 features • Triplet sputter head• Large format chamber• High resolution turbo molecular pumping• Fully automated colorful touch-screen
control• Able to plot sputtering parameters graphs• Including USB port for graph and date
extraction and software updates• Thickness monitor system for thickness
measuring during coating process
Specification• Two-stage, direct drive 170 lpm, rotary vane pump• High vacuum turbo pump 60 l/s• 3 water cooled 2" cathodes• Deposition continually without need to rest• 300 mm OD x 180 mm Pyrex cylinder chamber• 0-100 mA DC power supply• 7" touch screen control panel; includes features such as a log of the last 200 coatings carried
out• Ultimate Vacuum: Less than 4x10-5 millitorr• Dimensions: 50 Cm H x 60 Cm W x 47 Cm D• Utilities: 220V- 50HZ- 6A• Gas: Argon -99.999% (regulated to 2 - 5 psig); recommended but not required.• Manual or automatic Timed and Thickness sputtering• Control the rate of sputtering for any cathode independently, to achieve finer grain structure• High precision quartz crystal thickness monitor.• Protection of samples against heating during sputtering process• System automatically vents when turned off.• Automatically controlled the power of sputtering independent of pressure• Automatically controlled the temperature of cathodes in order to protect the life time of
magnets• Equipped with rotary sample holder with ability of tilting in direction of cathod• Date is rapidly entered using fully automatic touch screen control• Precision Mass Flow meter (MFC) in order to fine control of the vacuum pressure• Drawing the pressure, thickness and current curves• Transfer the curves and sputtering process data by USB port to PC• Shipping Weight: ~ 27 kg (without vacuum pump).~43 kg with pump
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Medical & pharmaceutical System
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(FMT)Our unique suite of in vivo imaging solution lets you discover more
about biological targets, processes and pathways, directly in the living animal.
Using our proprietary FMT (Fluorescence Molecular Imaging) technol-ogy and fluorescent in vivo imaging agents, you can generate non-inva-sive, deep tissue quantitative data for pre-clinical research in oncology, inflammatory, pulmonary, cardiovascular and skeletal diseases. Biological targets and pathways can be monitored and quantitated in real time giving a deeper understanding of the biology underlying disease mechanisms and therapeutic response.
Feature:• Easily and efficiently obtain calibrated quantitative
data in your animal models of disease• Measure and monitor multiple biological processes
simultaneously• Obtain functional and biological data to improve study
designs and enhance decision-making • Deep enunder standing of disease mechanisms,
disease progression and the rape tic responses
CCD Camera Specification
Camera Sensor TC285CCD Size 1024 × 256Imaging Pixels 1002 × 1004Quantum Efficiency MAX 67%Pixel Size 8×8 micronsMin. Detectable Radiance Single PhotonMin. Field of View (FOV) 2 × 2 cm2Max. Field of View (FOV) depend on magnification and stage to lens distanceMin. Image Pixel Resolution 50 pixelsRead Noise <1e/p/sDark Current <50 electrons/s/cm2Min. Detectable Radiance 30 photons/s/sr/cm2CCD Operating Temp (negative)25°CPc interface USB 2.0Active area pixel well depth 27000frame rate(full frames per sec) 12.4weight 610 gr
Application
• Neurological• Cardiovascular• Respiratory• Gastrointestinal• Immunological• Musculoskeletal• Reproductive• Targeted probe development• Image
Fluorescence Molecular Tomography
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Hyperthermia SystemHyperthermia LAB1 is an advanced heating nanoparticles system capable of providing heating
in cell and cancer research studies in lab conditions
Specifications Hyperthermia System1 -Power 100-1000W2- Different Frequency Options 100-400KHZ3- Capable to Heat Nanoparticles Inside or Around Cancer Cells4- Coupled Thermistor based Thermometer with 0.1ºC5- User Friendly Interface for Setting and Displaying Time6- Capability of Adjusting and Application of Software According to Custom Needs7- Ergonomic Design
Advantages:1-Power 100-1000W1-Power 100-1000W2- Different Frequency Options 100-400KHZ2- Different Frequency Options 100-400KHZ3- Capable to Heat Nanoparticles Inside or Around 3- Capable to Heat Nanoparticles Inside or Around
Cancer CellsCancer Cells4- Coupled Thermistor based Thermometer with 0.1ºC4- Coupled Thermistor based Thermometer with 0.1ºC5- User Friendly Interface for Setting and Displaying 5- User Friendly Interface for Setting and Displaying
TimeTime6- Capability of Adjusting and Application of Software 6- Capability of Adjusting and Application of Software
According toAccording to Custom Needs Custom Needs7- Ergonomic Design7- Ergonomic Design
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Scanning ProbeMicroscopy Systems
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Scanning Tunneling Microscope (STM)A scanning tunneling microscope is a powerful tool for obtaining micrographs from conduc-
tive and semi conductive materials. The imaging technique has recently been improved for mi-croscopy of nanostructured biomaterials on highly ordered atomic surfaces.
Performance• Expandable to suite user needs• Designed for quick and reliable measurements by
experts and novices alike• Unique price/performance ratio for research and
teaching• Mechanical Stability• Thermal drift balance• Low Electronic noise• Ergonomic Design• Windows-Based Powerful Software• Easy Maintenance
Application
• Atomic-scale imaging at the liquid-solid interface
• Catalysis research• Atom manipulation• Imaging and manipulating
DNA using AFM• Charge Density Waves on
TaS2
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STM SoftwareVarious charts of the scan data online 2D view Image, Line graph, spectroscopy (I-V, I-Z)Various charts of the image data offline 2D view,3D view, Line Profile, Color mapVarious charts of the spectroscopy (I-V, I-Z)data offline
Line Graph, first and second derivative , …
Noise reduction and feature enhance-ment
Data filtering in three levels
Lithography pattern 16 Color BMP and .dxf filesView all maximum scan range and change parameter very user friendly
Data export TXT,BMP,JPEG,GIF, …Automatic image transfer to offline processing software NAMA Analyzer
ElectronicsElectronics size 55×55×18 cmPower supply 220 V~/ 50 Hz/ 1AComputer Interface 16 bit Data Acquisition HardwareScan Speed Up to 100 Line/s at 128 data point / lineScan image rotation 0 - 360°Sample tilt Automatically by softwareSpectroscopy modes Single point measurementSpectroscopy data point Up to 2000
STM measurementMaximum Scan range 8 μm (±4000nm)Maximum Z-range 3 μm (±1500 nm)Derive resolution Z 0.045 nmDerive resolution XY 0.12 nmCurrent set point 0.02 -100 nA in 3 pA stepsImaging modes Constant current(Topography), Constant Height (Current)Spectroscopy modes Current-Voltage, Current-DistanceLithography modes Bitmap, Vector and ManualTip voltage ±10 V in 0.3 mV stepsSample approach Fully automatic and manuallySample size Max 20 mm diameter
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Featuring an innovational ergonomic design and im-proved electronics, this scientific microscope delivers atomic-scale resolution at a remarkably affordable price, making it an ideal choice for education as well as research. The NAMA-AFM offers educators an exceptional oppor-tunity to introduce their students to many powerful SPM/AFM techniques.• Contact mode• Noncontact mode• Semi Contact
Performance:• Cost-effective platform offers simple upgrade path• Excellent educational instrument with course curricu-
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Application
• Data storage devices (data storage media inspection)
• Micro and nanostructures (gratings, self-organizing systems)
• Materials science • Polymers• Medical applications• Semiconductors• Thin films
Atomic Force Microscopy (AFM)
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Specifications
μm10Range of scanning X,Yμm3Range of scanning Znm0.13Lateral resolutionnm0.05Vertical resolution
Scanning schema: Movable sample under stationaryprobeScanner type: Piezo ceramic
mm20Maximum sample sizeμm2.5XY Micro positioning stage
Embedded video system: visualization on a PC.connector via USB port from top and side
bit16Scanner DAC/ADC resolutionadvantages: Cost - Effective Platform Ofers simple upgrade path Excellent Educational instrument with course curriculum
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Our Clients
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