Glow-discharge optical emission spectroscopy (GDOES) is aspectroscopic method for the quantitative analysis of metals and other non-metallic solids. The idea was published and patented in 1968 by Werner Grimm fromHanau, Germany.[1][2]
Ordinaryatomic spectroscopy can be used to determine the surface of a material, but not its layered structure. In contrast, GDOES graduallyablates the layers of the sample, revealing the deeper structure.
GDOES spectroscopy can be used for the quantitative and qualitative determination of elements and is therefore a method ofanalytical chemistry.
The metallic samples are used as acathode in adirect current plasma. From the surface, the sample is removed in layers by sputtering with argon ions. The removed atoms pass into the plasma by diffusion. Photons are emitted with excited waves and have characteristic wavelengths which are recorded by means of a downstreamspectrometer and subsequently quantified.
When using a high-frequency alternating voltage for plasma generation and the corresponding construction of the glow discharge source, non-metallic samples can also be examined.
Various instruments are used as sensors.Photomultipliers can detect the slightest traces and also high concentrations of the sensor-specific element. By means ofcharge-coupled device, a complete element spectrum can be measured with the appropriate layer thickness.
Glow discharge spectroscopy is an established method for the characterization of steels and varnishes. Recent developments relate to the analysis of porous electrodes from lithium-ion batteries.[3][4]
| Vibrational (IR) | |||||||
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| UV–Vis–NIR "Optical" | |||||||
| X-ray and Gamma ray | |||||||
| Electron | |||||||
| Nucleon | |||||||
| Radiowave | |||||||
| Others |
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