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Determination of Zinc in Biological Materials by Atomic absorption spectroscopy (AAS) (CAT#: STEM-ST-0158-WXH)

Introduction

Zinc is a trace mineral, meaning that the body only needs small amounts, and yet it is necessary for almost 100 enzymes to carry out vital chemical reactions. It is a major player in the creation of DNA, growth of cells, building proteins, healing damaged tissue, and supporting a healthy immune system.




Principle

Atomic absorption spectrometry (AAS) detects elements in either liquid or solid samples through the application of characteristic wavelengths of electromagnetic radiation from a light source.
Atomic absorption spectroscopy (AAS) is based upon the principle that free atoms in the ground state can absorb light of a certain wavelength. Absorption for each element is specific, no other elements absorb this wavelength.

Applications

Atomic absorption spectrometry (AAS) is an easy, high-throughput, and inexpensive technology used primarily to analyze elements in solution. As such, AAS is used in food and beverage, water, clinical research, and pharmaceutical analysis.

Procedure

1. Creating a steady state of freely dissociated ground state atoms using a heat source (flame)
2. Passing light of a specific wavelength through the flame. The wavelength corresponds to the amount of energy required to excite an electron from (typically) the ground to first excited state for a specific element.
3. Measuring the amount of the light absorbed by the atoms as they move to the excited state (the atomic absorption).
4. Using the measured absorbance to calculate the concentration of the element in a solution, based on a calibration graph.

Materials

• Spectrometer
• Radiation sources
• Atomizers
• Atomic absorption
• Spectrophotometer
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