Elemental Analysis Solutions
Aurora Biomed specializes in elemental analysis instruments to suit the needs and requirements for any elemental analysis laboratory. These instruments complete elemental analysis for a range of detection limits including parts per million (ppm), parts per billion (ppb) and parts per trillion (ppt).
Combining revolutionary designs, excellent performance, versatility and ease-of-use, Aurora’s elemental analysis instrument line includes the TRACE Atomic Absorption Spectrometers and LUMINA Atomic Fluorescence Spectrometers. These instruments are the ideal choice for your elemental analysis needs.
Elemental Analysis Overview
Elemental Analysis is a process where a sample of material (e.g. soil, waste or drinking water, bodily fluids, minerals, chemical compounds) is analyzed for its elemental composition. Analytical chemistry is the analysis of material samples to gain an understanding of their chemical composition and structure.
Atomic absorption spectroscopy in analytical chemistry is a technique for determining the concentration of a particular metal element within a sample. Atomic absorption spectroscopy can be used to analyze the concentration of over 62 different metals in a solution.
Typically, the technique makes use of a flame to atomize the sample, but other atomizers such as a graphite furnace are also used. Three steps are involved in turning a liquid sample into an atomic gas:
The flame is arranged such that it is laterally long (usually 10 cm) and not deep. The height of the flame must also be controlled by controlling the flow of the fuel mixture. A beam of light is focused through this flame at its longest axis (the lateral axis) onto a detector past the flame.
The light that is focused into the flame is produced by a hollow cathode lamp which is the most common light source used in Atomic absorption spectroscopy (AAS). The wavelength and intensity of light is dependant on the metal. Therefore, analysis by atomic absorption spectroscopy requires a specific lamp for each element to be measured.
As the quantity of energy inputted into the flame is known, and the quantity outputted at the other side (detector) can be measured, it is possible to calculate how many of these transitions took place, and thus get a signal that is proportional to the concentration of the element being measured.
Contact us to learn how our elemental analyzer solutions can suit your needs.