Application of 7N In as secondary cathode for the direct current-glow discharge mass spectrometry analysis of solid, fused high-purity quartz

Jochen Busam; Gaute Stokkan; Astrid Marie F Muggerud; Marisa Di Sabatino

doi:10.1002/jms.4771

Application of 7N In as secondary cathode for the direct current-glow discharge mass spectrometry analysis of solid, fused high-purity quartz

J Mass Spectrom. 2021 Aug;56(8):e4771. doi: 10.1002/jms.4771.

Authors

Jochen Busam¹, Gaute Stokkan², Astrid Marie F Muggerud³, Marisa Di Sabatino¹

Affiliations

¹ Department of Materials Science and Engineering, Norwegian University of Science and Technology (NTNU), Trondheim, Norway.
² SINTEF Industry, Trondheim, Norway.
³ The Quartz Corp, Drag, Norway.

PMID: 34251720
DOI: 10.1002/jms.4771

Abstract

Direct current glow discharge mass spectrometry with an indium-based secondary cathode technique is used to analyze solid, nonconducting, fused high-purity quartz regarding metallic impurities of relevance to the solar industry. Details of the analytical routines are presented. In this work, the secondary cathode design and glow discharge conditions are optimized beyond the commonly applied practices. In addition, relative sensitivity factors (RSFs) for these optimized conditions are established and compared to previously published results. The results indicate that the technique enables stable measurements with detection limits down to the part per billion (ppb) range.

Keywords: direct current glow discharge mass spectrometry; indium; quartz; secondary cathode; silica.

Grants and funding

268027/Research Council of Norway