Atomic emission spectroscopy is more sensitive to flame stability compared to atomic absorption spectroscopy. Briefly explain why.
Atomic emission spectroscopy uses plasma or spark and arc to excite the atoms. They are more sensitive due to their excitation source and also helps in multi element analysis.
Flame emission spectroscopy uses flame as the source for exciting atoms. This has the limitations of detecting alkali metals only as they give visible colors upon emission. They are less sensitive as the energy of the flame is not sufficient to excite other elements.
Atomic emission spectroscopy (AES) and atomic absorption spectroscopy (AAS) are two complementary techniques used for elemental analysis. AES is generally more sensitive to flame stability compared to AAS due to the different physical principles underlying each technique.
In AES, the sample is atomized and excited by a flame or plasma, causing the atoms to emit light at characteristic wavelengths. The intensity of the emitted light is directly proportional to the concentration of the analyte. Any instability or fluctuation in the flame can affect the atomization and excitation process, leading to changes in the intensity of the emitted light. This can result in inaccurate measurements or poor precision.
On the other hand, AAS measures the absorption of light by the atoms in the sample. The analyte atoms are vaporized and excited by a light source, and the amount of light absorbed is measured. Any fluctuations in the flame or the light source may affect the intensity of the light absorbed, but this effect is usually less pronounced than in AES. This is because AAS measures the intensity of the light that passes through the sample, rather than the emitted light. In addition, AAS typically uses a monochromator to select a specific wavelength of light, which can reduce the impact of flame instability on the measurements.
Therefore, when flame stability is a concern, AES may not be the best choice for elemental analysis, and AAS or other techniques that are less sensitive to flame stability should be considered instead.
Atomic emission spectroscopy is more sensitive to flame stability compared to atomic absorption spectroscopy. Briefly explain...
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