Inductively coupled plasma atomic emission spectrometer LB-10ICS is a highly stable spectrometer with a wavelength range of 180 nm to 900 nm. It can analyze up to 600 samples per day and has low detection limit. It consists of a scanning beam splitter, RF generator, sample introduction systems, photovoltaic conversion, control systems, data processing systems, analysis and operating software.
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Wavelength range | 180 nm ̴̴ 900 nm |
Analytical speed | 10 elements every minute |
Accuracy | Relative standard deviation RSD ≤ 2 % |
Stability | Relative standard deviation RSD ≤ 3 % |
Measuring linear range | (Relative coefficient) ≥ 0.9995 |
Features
Applications
Used for metal and trace elemental analysis, foundry, mechanical engineering, scientific research, product inspection, automobile, petrochemical engineering, shipbuilding, electrics, aerospace, nuclear power, metallic and nonferrous metallic smelting, processing and recycling.
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Oscillation frequency | 27.12 MHz |
Gas | Nitrogen/Argon |
Torch position | Electrically adjusted |
Torch position optimization | Automatic by software |
Labotronics Inductively Coupled Plasma Mass Spectrometry (ICP-MS) is a highly sensitive analytical technique used for elemental analysis. It combines the ionization capability of inductively coupled plasma with the precision of mass spectrometry. Our ICP-MS can detect and quantify a wide range of elements at trace levels, making it crucial in environmental, pharmaceutical, and geological research. With its high sensitivity, accuracy, and speed, ICP-MS is a powerful tool for applications requiring the quantification of elements in complex matrices, contributing to advancements in various scientific fields.
Mass Range | 2 amu ~ 255 amu |
Dynamic ( Linear ) range | ≥ 108 |
Sensitivity | Be ≥ 5 × 106 ( cps/mg/L ) In ≥ 60 × 106 ( cps/mg/L ) U ≥ 60 × 106 ( cps/mg/L ) |
Limit of detection | Be ≤ 5 ( ng/L ) In ≤ 0.5 ( ng/L ) U ≤ 0 .5 ( ng/L ) |
Our FTIR (Fourier Transform Infrared) Spectrometer is a powerful analytical instrument used for identifying and analyzing chemical compounds based on their infrared absorption characteristics. Operating on the principle of interferometry, this spectrometer measures the intensity of infrared light absorbed by a sample as a function of wavelength. Widely utilized in research, pharmaceuticals, environmental analysis, and material science, FTIR spectrometers offer high sensitivity and precision, making them indispensable tools for qualitative and quantitative analysis in various scientific disciplines.
Spectral range | 4000 cm -1 ~ 400 cm-1 |
Light source | Air cooled IR light source |
Signal noise ratio | 15000 : 1 |
Resolution | 1.5 cm -1 |
Wave Number Range | 7800 to 375 cm-1 |
Resolution | 1 cm-1 |
Wave Number Repeatability | 1 cm-1 |
Wave Number Accuracy | 0.01 cm-1 |
Our Photomultiplier tube (PMT) spectrometers are advanced optical instruments used for sensitive and precise detection of light signals across different wavelengths. Employing a photomultiplier to amplify weak light signals, these spectrometers excel in applications requiring high sensitivity, such as fluorescence spectroscopy, Raman spectroscopy, and low-light-level measurements. PMT spectrometers convert incoming photons into electrical signals, offering excellent signal-to-noise ratios and wide dynamic ranges. Their versatility makes them essential in scientific research, biomedical diagnostics, and environmental monitoring, where the ability to detect and analyze faint light signals is crucial.
Analysis wave band(width range) | 120 nm ̴ 800 nm |
Optical system(large focal length) | Curvature radius : 750 mm |
Optical room | 35 °C ± 0.2 °C |
Working temperature | 10 ° C ̴ 30 ° C |
Our Raman Spectrometers operate under controlled temperature conditions for precise analysis in various environments. These spectrometers are equipped with high-sensitivity detectors such as CCDs and photodiode arrays. They achieve ultra-high resolution by precisely focusing the laser spots on the samples. They feature optimized excitation wavelengths, automatic focusing, and auto-scan functionality. These are integrated with confocal optics and provide exceptional spatial resolution for high-precision analysis.
Excitation Wavelength | 785 nm |
Spectral Range | 250 to 4300 cm⁻1 |
Spectral Resolution | 8 to 11 cm⁻1 |
Maximum Laser Power | 500 mW (Power for 532 nm: 100 mW) |
Excitation Wavelength | 785 nm |
Spectral Range | 250 to 2700 cmˉ¹ |
Spectral Resolution | 5 cmˉ¹ |
Maximum Laser Power | 500 mW (Power for 532 nm: 100 mW) |
Excitation Wavelength | 785 nm |
Spectral Range | 250 to 3500 cmˉ¹ |
Spectral Resolution | 6 to 8 cmˉ¹ |
Maximum Laser Power | 500 mW (Power for 532 nm: 100 mW) |
We provide an X-ray Fluorescence (XRF) Spectrometer, a powerful analytical instrument used for non-destructive elemental analysis of various materials. Operating on the principle of X-ray excitation, the spectrometer measures the characteristic X-ray fluorescence emitted by elements in a sample. It provides rapid and quantitative information about the elemental composition across a wide range of materials, including metals, minerals, and alloys. Widely used in fields such as geology, environmental science, and quality control, XRF spectrometers offer high precision and accuracy, enabling users to identify and quantify elements with minimal sample preparation.
Energy range | 1 keV - 50 keV |
Analysis range | 1 ppm - 99.99 % |
Resolution of imported electrical refrigeration semiconductor detector | 130 ev |
Tube voltage: 0-50Kv tube current | 1 μA ̴ 2000 μA |
Analysis Range | 1ppm to 99.99% |
Temperature Range | -20℃ to +50℃ |
Measurement Range | From Si to U |
Testing Samples | Solid, liquid and powders |
Analysis Range | 0.5 ppm to 20% |
Working Temperature | 0 to 40℃ |
Test Elements | Sulfur, Chlorine |
Detection Limit | 0.5ppm |
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