[HTML][HTML] A critical evaluation of interlaboratory data on total, elemental, and isotopic carbon in the carbonaceous particle reference material, NIST SRM 1649a
LA Currie, BA Benner Jr, JD Kessler… - Journal of Research …, 2002 - ncbi.nlm.nih.gov
LA Currie, BA Benner Jr, JD Kessler, DB Klinedinst, GA Klouda, JV Marolf, JF Slater…
Journal of Research of the National Institute of Standards and Technology, 2002•ncbi.nlm.nih.govBecause of increased interest in the marine and atmospheric sciences in elemental carbon
(EC), or black carbon (BC) or soot carbon (SC), and because of the difficulties in analyzing
or even defining this pervasive component of particulate carbon, it has become quite
important to have appropriate reference materials for intercomparison and quality control.
The NIST “urban dust” Standard Reference Material® SRM 1649a is useful in this respect, in
part because it comprises a considerable array of inorganic and organic species, and …
(EC), or black carbon (BC) or soot carbon (SC), and because of the difficulties in analyzing
or even defining this pervasive component of particulate carbon, it has become quite
important to have appropriate reference materials for intercomparison and quality control.
The NIST “urban dust” Standard Reference Material® SRM 1649a is useful in this respect, in
part because it comprises a considerable array of inorganic and organic species, and …
Abstract
Because of increased interest in the marine and atmospheric sciences in elemental carbon (EC), or black carbon (BC) or soot carbon (SC), and because of the difficulties in analyzing or even defining this pervasive component of particulate carbon, it has become quite important to have appropriate reference materials for intercomparison and quality control. The NIST “urban dust” Standard Reference Material® SRM 1649a is useful in this respect, in part because it comprises a considerable array of inorganic and organic species, and because it exhibits a large degree of (14 C) isotopic heterogeneity, with biomass carbon source contributions ranging from about 2%(essentially fossil aliphatic fraction) to about 32%(polar fraction).
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