Add to ORKGGraphite filter atomizers (GFA) for electrothermal atomic absorption spectrometry (ETAAS) show substantial advantages over commonly employed electrothermal vaporizers and atomizers, tube and platform furnaces, for direct determination of high and medium volatility elements in matrices associated with strong spectral and chemical interferences. Two factors provide lower limits of detection and shorter determination cycles with the GFA: the vaporization area in the GFA is separated from the absorption volume by a porous graphite partition; the sample is distributed over a large surface of a collector in the vaporization area. These factors convert the GFA into an efficient chemical reactor. The research concerning the GFA concept, technique a...
Spatial non-uniformities in analyte, atomizer gas phase temperature and radiant intensity distributi...
Spatial non-uniformities in analyte, atomizer gas phase temperature and radiant intensity distributi...
The excitation temperature of the atomic vapor arising from analyte atomization in two commercial gr...
Since its commercial introduction, the graphite furnace (GF) has enjoyed widespread use as a sensiti...
The article presents the results of optimization of operation parameters, investigation of analytica...
The diversity of applications of the graphite furnace is extraordinary, encompassing the fields of p...
A new crossed graphite furnace for atomic absorption spectrometry (GFAAS) was designed and installed...
Graphite furnace atomic absorption spectrometry has excellent detection limits and accepts a wide va...
A method is proposed to reduce the relative detection limits for elements in an atomic absorption sp...
A method is proposed to reduce the relative detection limits for elements in an atomic absorption sp...
A method is proposed to reduce the relative detection limits for elements in an atomic absorption sp...
Graphite furnace atomic absorption spectrophotometer (GFAAS) are typically configured with ventilati...
A method is proposed to reduce the relative detection limits for elements in an atomic absorption sp...
A two-stage atomizer for atomic absorption spectrometry is proposed. Its distinctive feature is the ...
Spatial non-uniformities in analyte, atomizer gas phase temperature and radiant intensity distributi...
Spatial non-uniformities in analyte, atomizer gas phase temperature and radiant intensity distributi...
Spatial non-uniformities in analyte, atomizer gas phase temperature and radiant intensity distributi...
The excitation temperature of the atomic vapor arising from analyte atomization in two commercial gr...
Since its commercial introduction, the graphite furnace (GF) has enjoyed widespread use as a sensiti...
The article presents the results of optimization of operation parameters, investigation of analytica...
The diversity of applications of the graphite furnace is extraordinary, encompassing the fields of p...
A new crossed graphite furnace for atomic absorption spectrometry (GFAAS) was designed and installed...
Graphite furnace atomic absorption spectrometry has excellent detection limits and accepts a wide va...
A method is proposed to reduce the relative detection limits for elements in an atomic absorption sp...
A method is proposed to reduce the relative detection limits for elements in an atomic absorption sp...
A method is proposed to reduce the relative detection limits for elements in an atomic absorption sp...
Graphite furnace atomic absorption spectrophotometer (GFAAS) are typically configured with ventilati...
A method is proposed to reduce the relative detection limits for elements in an atomic absorption sp...
A two-stage atomizer for atomic absorption spectrometry is proposed. Its distinctive feature is the ...
Spatial non-uniformities in analyte, atomizer gas phase temperature and radiant intensity distributi...
Spatial non-uniformities in analyte, atomizer gas phase temperature and radiant intensity distributi...
Spatial non-uniformities in analyte, atomizer gas phase temperature and radiant intensity distributi...
The excitation temperature of the atomic vapor arising from analyte atomization in two commercial gr...