Synchrotron‐based microprobe investigation of impurities in raw quartz‐bearing and carbon‐bearing feedstock materials for photovoltaic applications

Abstract: Using synchrotron‐based analytical microprobe techniques, we determine micrometer‐scale elemental composition, spatial distribution, and oxidation state of impurities in raw feedstock materials used in the photovoltaic industry. Investigated Si‐bearing compounds are pegmatitic quartz, hydrothermal quartz, and quartzite. Micrometer‐scale clusters containing Fe, Ti, and/or Ca are frequently observed at structural defects in oxidized states and in bulk concentrations equivalent to inductively coupled plasma mass … Show more

“…Interesting results using m-SRXRF spectrometry in the analysis of impurities in raw quartz-bearing and carbon-bearing feedstock materials for photovoltaic applications were found by Bernardis et al 46 These investigations of the silicon-bearing compounds, pegmatitic quartz, hydrothermal quartz and quartzite, showed micro-scale clusters containing oxidised states of Fe, Ti and/or Ca at structural defects. The authors also found that in three carbon-bearing samples, pine wood, pine charcoal and eucalyptus charcoal, clustered metals were only observed in the charcoal samples.…”

2013 Atomic spectrometry update—A review of advances in X-ray fluorescence spectrometry

“…Interesting results using m-SRXRF spectrometry in the analysis of impurities in raw quartz-bearing and carbon-bearing feedstock materials for photovoltaic applications were found by Bernardis et al 46 These investigations of the silicon-bearing compounds, pegmatitic quartz, hydrothermal quartz and quartzite, showed micro-scale clusters containing oxidised states of Fe, Ti and/or Ca at structural defects. The authors also found that in three carbon-bearing samples, pine wood, pine charcoal and eucalyptus charcoal, clustered metals were only observed in the charcoal samples.…”

2013 Atomic spectrometry update—A review of advances in X-ray fluorescence spectrometry

X-ray Microprobe Investigation of Iron During a Simulated Silicon Feedstock Extraction Process

Increased Throughput and Sensitivity of Synchrotron-Based Characterization for Photovoltaic Materials