Wang et al. (2010) Determination of fluorine and chlorine by pyrohydrolysis and ion chromatography: comparison with alkaline fusion and ion chromatography, Geostandards and Geoanalytical Research, 34, 175--183, doi:10.1111/j.1751-908X.2010.00043.x. < 20170113184744-227770 > pub
Table 3-4. Flourine and Chlorine concantrations in silicate reference materials < 20190515110138-439284 > pub
measured unit JB-2 JB-3 JA-1 BCR-2 BHVO-1 BHVO-2 AGV-1 AGV-2 NIST SRM 610 NIST SRM 612 NIST SRM 614 MYK-1 (#7/6)
[F] a µg/g 89.0 261.0 168.0 485.0 413.0 409.0 402.0 432.0 205.0 40.0 2.4 23.0
[Cl] a µg/g 287 292 42 89 90 89 107 61 273 88 57 192
(a) determined by Ion chromatography with pyrohydrolysis on 761 COMPACT IC
name physical-form quantity unit global-id
JB-2 pub powder 20130416090250-887738
JB-3 pub powder 20130416090242-335609
JA-1 pub powder 20130416090234-228760
BCR-2 pub powder 20130416090303-875743
BHVO-1 pub powder 20130416090323-009811
BHVO-2 pub powder 20130416090256-077300
AGV-1 pub powder 20130416090329-701068
AGV-2 pub powder 20130416090310-185693
NIST SRM 610 pub chunk 20130419085456-837475
NIST SRM 612 pub chunk 20130419085509-572593
NIST SRM 614 pub chunk 20130416090410-440183
MYK-1 (#7/6) pub powder 20130416090227-643389

The table is created from analysis shown below. The rowname F-Cl (Wang et al., 2010) filters out analysis. Upper analysis has priority.To list more analysis, add a stone in stone sub-tab.

  • name
    technique
    device
    priority
JB-2 JB-3 JA-1 BCR-2 BHVO-1 BHVO-2 AGV-1 AGV-2 NIST SRM 610 NIST SRM 612 NIST SRM 614 MYK-1 (#7/6)