SPECTROSCOPY
Atomic Absorption Spectrophotometers
Atomic absorption spectroscopy (AAS) determines the presence of metals in liquid samples. Metals include Fe, Cu, Al, Pb, Ca, Zn, Cd and many more. It also measures the concentrations of metals in the samples. Typical concentrations range in the low mg/L range.
Atomic absorption spectroscopy (AAS) determines the presence of metals in liquid samples. Metals include Fe, Cu, Al, Pb, Ca, Zn, Cd and many more. It also measures the concentrations of metals in the samples. Typical concentrations range in the low mg/L range.
Atomic Emission Spectrometer
The Atomic Emission Spectrometer is mainly used in the quantitative analysis of metallic element and partial non-metallic element in liquid sample (including the solid sample which can convert into a solution by chemical processing.
The Atomic Emission Spectrometer is mainly used in the quantitative analysis of metallic element and partial non-metallic element in liquid sample (including the solid sample which can convert into a solution by chemical processing.
FT-IR Spectrophotometers
FTIR offers quantitative and qualitative analysis for organic and inorganic samples. It identifies chemical bonds in a molecule by producing an infrared absorption spectrum. The spectra produce a profile of the sample, a distinctive molecular fingerprint that can be used to screen and scan samples for many different components. FTIR is an effective analytical instrument for detecting functional groups and characterizing covalent bonding information.
FTIR offers quantitative and qualitative analysis for organic and inorganic samples. It identifies chemical bonds in a molecule by producing an infrared absorption spectrum. The spectra produce a profile of the sample, a distinctive molecular fingerprint that can be used to screen and scan samples for many different components. FTIR is an effective analytical instrument for detecting functional groups and characterizing covalent bonding information.
Optical Emission Spectroscopy
Optical Emission Spectrometers serves a wide range of uses. From the more traditional use of optical emission spectroscopy of analysis of unknown compounds and elements to elemental analysis of lubricating oils, transmission fluids, fuels, hydraulic fluids and much more this line of optical emission spectrometers can do it all.
Optical Emission Spectrometers serves a wide range of uses. From the more traditional use of optical emission spectroscopy of analysis of unknown compounds and elements to elemental analysis of lubricating oils, transmission fluids, fuels, hydraulic fluids and much more this line of optical emission spectrometers can do it all.
UV/VIS Spectrophotometers
The ultraviolet-visible (UV-Vis) spectrophotometer is an instrument commonly used in the laboratory that analyzes compounds in the ultraviolet (UV) and visible (Vis) regions of the electromagnetic spectrum. This instrument looks at electronic transitions. It allows one to determine the wavelength and maximum absorbance of compounds. From the absorbance information and using a relationship known as Beer’s Law (A = εbc), one is able to determine either the concentration of a sample if the molar extinction coefficient is known, or the molar absorptivity, if the concentration is known
The ultraviolet-visible (UV-Vis) spectrophotometer is an instrument commonly used in the laboratory that analyzes compounds in the ultraviolet (UV) and visible (Vis) regions of the electromagnetic spectrum. This instrument looks at electronic transitions. It allows one to determine the wavelength and maximum absorbance of compounds. From the absorbance information and using a relationship known as Beer’s Law (A = εbc), one is able to determine either the concentration of a sample if the molar extinction coefficient is known, or the molar absorptivity, if the concentration is known
X-Ray Flourescence Spectrometer
XRF allows close monitoring of mining processes and of the product quality. XRF can be used to analyze the chemical and the mineral phase composition- element concentration, what elements are present, how much of each (weight %).
XRF allows close monitoring of mining processes and of the product quality. XRF can be used to analyze the chemical and the mineral phase composition- element concentration, what elements are present, how much of each (weight %).