MBE: Molecular beam epitaxy system - KRATOS
Description: KRATOS molecular beam epitaxy system for GaAs with control. |
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Shimadzu Liquid chromatograph mass spectrometer LCMS-2020
Description: Liquid chromatograph mass spectrometer LCMS-2020 can detect molecular masses with high accuracy, from which can be checked the purity of compounds, ascertain whether the required compound is obtained. This is a powerful method since identification takes place at low concentrations. With its array of ultrafast capabilities, LCMS-2020 mass spectrometer provides the ultimate in high-speed analysis with unrivaled sensitivity. It offers faster, more accurate detection of trace impurities present in pharmaceuticals samples, environmental pollutants, or other samples. LCMS-2020 can detect masses in range m/z 10 to 2000 and achieve an ultra-fast polarity switching time of just 15 ms. |
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Bruker Avance III 700 instrument
Description: Nuclear Magnetic Resonance spectrometer for investigation and identification of organic compounds in solutions. This includes the solution of biological macromolecules (eg proteins, DNA and oligosaccharides) and the identification of low molecular weight compounds. Pure compounds as well as multi-component mixtures can be analyzed. The spectrometer can record the magnetic resonance spectra of the 1H, 13C, 15N, 19F, 31P nuclei, and various two-dimensional spectra. The Avance III 700 MHz is a three-channel NMR device with a magnetic field of 16.4 Tesla with a 54 mm room temperature channel, a built-in cryogenic triple-resonance head, as well as a 60-position automatic sample changer. |
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Hybrid mass spectrometer with time of flight mass analyser
Description: Hybrid mass spectrometer with time of flight mass analyser is able to record molecular masses with high accuracy, from which molecular formulas can be calculated. This is the most powerful method for the identification of individual compounds present in complex mixtures at low concentrations. Measure of molecular masses is very important in materials development and quality control. Ultra performance liquid chromatography (UPLC) allows separation of the mixtures of compounds of high to medium polarity. UPLC can separate compounds and record UV spectra in the range of 200-500 nm, and MS spectra in the range of 20-8000 m/z with the accuracy of less than 1 ppm. |
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Bruker micrOTOF-QIII spectrometer
Description: The Bruker micrOTOF-QIII spectrometer can be used to accurately determine the molecular weights of organic compounds and to check the purity of compounds. The device features an automated LC-MS system for generating chemical formulas, molecular formula validation, and general LC-MS measurements. The Bruker micrOTOF-QIII Spectrometer can be used to validate formulas, identification of the compound with LC, GC or direct probe, extended identification. The mass found on the spectrometer is for a very wide range of 20 to 40,000 m / z, a mass of 1 to 2 ppm RMS, a mass resolution of 20,000 (FWHM) at LC. |
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Bruker Avance III 400 instrument
Description: Nuclear Magnetic Resonance spectrometer for identification of organic compounds in solutions. The device can analyze pure compounds and multi-component mixtures. The spectrometer can record the magnetic resonance spectra of the 1H, 13C, 15N, 19F, 31P nuclei, and various two-dimensional spectra. The principle of operation is based on different electron shielding of the nuclei. The device has a permanent magnetic field of 9.4 Tesla, a room-uniform shim system for optimum magnetic field uniformity required for 1D, 2D and 3D experiments without sample cell rotation; at least 20 orthogonal gradient controls and 60-position automatic sample changer. |
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XPS: X-Ray photoelectron spectroscopy and Auger electron spectroscopy system - KRATOS XSAM800
Description: Quantitative and qualitative surface analysis using X-Ray photoelectron spectroscopy and Auger electron spectroscopy |
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Comprehensive GC×GC system with time-of-flight mass spectrometer
Description: Pegasus 4D GCxGC-TOFMS system used for determination and identification of volatile aroma compounds in the liquid sample and in the headspace of sample matrix (vapour phase). Qualitative and quantitative chromatographic analysis of chemical composition of the essential oils, volatile extracts, spicy and medicinal herb, and etc. Complex sample analysis, separation and identification of individual volatile aroma compounds. Sample inlet CIS4 system with refrigeration (split/splitless), which could be combined with static headspace gas station, thermodesorbtion (TDA) and solid phase microextraction (SPME) stations. Gas chromatograph working temperature interval +4 to 450 °C, carrier gas preassure in the range of 0-150 psi (split/splitless injector), Time of flight mas spectrometer (TOF MS) with electron ionization source (EI), mass ranges 5-1000 amu, mass resolution FWHM is higher than 1000, TOF MS is combined with two dimentional gas chromatograph in 1D and 2D mode; TOF MS enables automatic optimization of MS parameters and automatic mass calibrations. |
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Tandem triple quadrupole mass spectrometer with ultra performance and supercritical fluid chromatography system
Description: Tripple quadrupole masss spectrometer can detect compounds present at very low concentrations, therefore it is very suitable for the quantitative analysis, especially of trace compounds. Also it is possible, to obtain molecular fragments of compounds and perform quantitative analysis by fragmentation pattern. This method of analysis is important for determining composition of the product and also for quality control. Ultra performance liquid chromatography (UPLC) allows separation of the mixtures of compounds of high to medium polarity. UPLC can separate compounds and record MS spectra in the range of 20-4000 m/z. Sensitivity of the instrument depends on the properties of individual compounds, bus in general it is in the pg mass range. Using supercritical fluid chromatography it is possible to analyse also non polar compounds, such as lipids, lipid soluble vitamins and pigments.
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3D-Computed X-ray tomography system Rayscan 250E
Description: Computed tomography (CT) is an imaging procedure that uses X–ray source to irradiate the object at different angles and 2D images at a flat panel detector are recorded. Later 3D images of the density distribution inside the object are reconstructed. The computerized tomography calculation allows the 3D reconstruction of the measured volumetric data inside the object. Up to 3 μm resolution can be achieved. |
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EBL: E-beam lithography tool - Raith e-Line Plus
Description: The Raith e-Line Plus is an advanced electron beam lithography system designed for high-precision nanofabrication and nanoscale patterning. It features a versatile platform with a high-resolution electron beam column, capable of achieving feature sizes down to the sub-10 nanometer range. The Raith e-Line Plus has a user-friendly interface and comprehensive software suite, facilitating efficient and accurate design-to-device workflows. The system is also capable of scanning electron microscopy (SEM) and surface chemical analysis (EDX) from Be (Z=4) to Am (95). The system is installed in a class ISO5 cleanroom. |
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XPS: Universal X-Ray photoelectron and ion scatering spectroscopy surface analysis system - ThermoFisher ESCALAB 250Xi
Description: The ThermoFisher ESCALAB 250Xi is an advanced surface analysis tool designed for both qualitative and quantitative investigations of material surfaces. Utilizing X-ray photoelectron spectroscopy (XPS), ion scattering spectroscopy (ISS), and reflection electron energy loss spectroscopy (REELS), this system provides comprehensive insight into surface chemistry and electronic structure. The addition of angle-resolved XPS (ARXPS) allows for depth profiling, while an Ar ion beam enables precise surface cleaning and etching. |
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