AGDB measured parameter: Sb_ppm_AA_GF_HF

Antimony, in parts per million by weight, by graphite furnace-atomic absorption spectrophotometry after multi-acid digestion with HF

Reference for the analytical method

Author Doughten, Michael W., and Grossman, Jeffrey N.
Year 1993
Title Method descriptions and bibliography of routine work performed by the Branch of Geochemistry analytical laboratories, U.S. Geological Survey
Series Open-File Report
Issue 93-1-B
Pages 16 leaves; 28 cm
URL http://pubs.er.usgs.gov/publication/ofr931B
Notes Includes bibliographical references (leaves 14-16). Demonstrates how output from the REPORT program looks and documents current analytical methods at the USGS
Organization USGS-BGC

Other parameters measuring Sb

Parameter Description
Sb_ppm_AA_F_AZ_Fuse_P Antimony, in parts per million by weight, by flame-atomic absorption spectrophotometry after partial digestion with K2S2O7 fusion, HCl-KI and MIBK
Sb_ppm_AA_F_AZ_H2O2_P Antimony, in parts per million by weight, by flame-atomic absorption spectrophotometry after partial digestion with HCl-H2O2 and MIBK
Sb_ppm_AA_F_AZ_HCl_P Antimony, in parts per million by weight, by flame-atomic absorption spectrophotometry after partial digestion with HCl and MIBK
Sb_ppm_AA_F_HCl_OE_P Antimony, in parts per million by weight, by flame-atomic absorption spectrophotometry after partial digestion with HCl and TOPO-MIBK
Sb_ppm_AA_F_HF Antimony, in parts per million by weight, by flame-atomic absorption spectrophotometry after multi-acid digestion with HF
Sb_ppm_AA_GF_HF Antimony, in parts per million by weight, by graphite furnace-atomic absorption spectrophotometry after multi-acid digestion with HF
Sb_ppm_AA_HG_HF Antimony, in parts per million by weight, by hydride generation-atomic absorption spectrophotometry after multi-acid digestion with HF
Sb_ppm_AA_HG_ST Antimony, in parts per million by weight, by hydride generation-atomic absorption spectrophotometry after sinter digestion
Sb_ppm_AES_Acid_P Antimony, in parts per million by weight, by inductively coupled plasma-atomic emission spectroscopy after unknown partial digestion/leach
Sb_ppm_AES_AR_P Antimony, in parts per million by weight, by inductively coupled plasma-atomic emission spectroscopy after partial digestion with aqua regia
Sb_ppm_AES_AZ_P Antimony, in parts per million by weight, by inductively coupled plasma-atomic emission spectroscopy after partial digestion with H2O2-HCl leach and DIBK extract
Sb_ppm_CM_Fuse_P Antimony, in parts per million by weight, by colorimetry after NaHSO4 fusion partial digestion and rhodamine B
Sb_ppm_EDX Antimony, in parts per million by weight, by energy-dispersive X-ray fluorescence spectroscopy
Sb_ppm_ES_Q Antimony, in parts per million by weight, by quantitative direct-current arc emission spectrography
Sb_ppm_ES_SQ Antimony, in parts per million by weight, by semi-quantitative visual 6-step or direct reader direct-current arc emission spectrography
Sb_ppm_MS_AR_P Antimony, in parts per million by weight, by inductively coupled plasma-mass spectroscopy after partial digestion with aqua regia
Sb_ppm_MS_HF Antimony, in parts per million by weight, by inductively coupled plasma-mass spectroscopy after HF-HCl-HNO3-HClO4 digestion
Sb_ppm_MS_ST Antimony, in parts per million by weight, by inductively coupled plasma-mass spectroscopy after Na2O2 sinter digestion
Sb_ppm_NA Antimony, in parts per million by weight, by neutron activation