Raman spectra and unit cell parameters of sphalerite solid solutions (FexZn1−xS)

“…The first one was not reported so far for sphalerite, but it can be assigned to lattice modes in the unoriented sample. The 304 cm −1 and 354 cm −1 bands are typical for sphalerite, being similar to the ones from previous studies [52,62,63] with a slight shift of 4 cm −1 in the bands position. The Raman band assignments for sphalerite suggest that the ~350 cm −1 peak is due to Zn-S vibrations, while the ~300 and ~331 cm −1 are controlled by the vibration of Fe-S bonds [52,63].…”

“…The 304 cm −1 and 354 cm −1 bands are typical for sphalerite, being similar to the ones from previous studies [52,62,63] with a slight shift of 4 cm −1 in the bands position. The Raman band assignments for sphalerite suggest that the ~350 cm −1 peak is due to Zn-S vibrations, while the ~300 and ~331 cm −1 are controlled by the vibration of Fe-S bonds [52,63]. In the present study, the line at ~331 cm −1 is missing or it is overlapped by the more intense band at 354 cm −1 , suggesting a sample with low Fe content [52].…”

Valentinite and Colloform Sphalerite in Epithermal Deposits from Baia Mare Area, Eastern Carpathians

“…The first one was not reported so far for sphalerite, but it can be assigned to lattice modes in the unoriented sample. The 304 cm −1 and 354 cm −1 bands are typical for sphalerite, being similar to the ones from previous studies [52,62,63] with a slight shift of 4 cm −1 in the bands position. The Raman band assignments for sphalerite suggest that the ~350 cm −1 peak is due to Zn-S vibrations, while the ~300 and ~331 cm −1 are controlled by the vibration of Fe-S bonds [52,63].…”

“…The 304 cm −1 and 354 cm −1 bands are typical for sphalerite, being similar to the ones from previous studies [52,62,63] with a slight shift of 4 cm −1 in the bands position. The Raman band assignments for sphalerite suggest that the ~350 cm −1 peak is due to Zn-S vibrations, while the ~300 and ~331 cm −1 are controlled by the vibration of Fe-S bonds [52,63]. In the present study, the line at ~331 cm −1 is missing or it is overlapped by the more intense band at 354 cm −1 , suggesting a sample with low Fe content [52].…”

Valentinite and Colloform Sphalerite in Epithermal Deposits from Baia Mare Area, Eastern Carpathians

“…However, this is assigned to the presence of Fe 3+ , rather than the isovalent substitution considered in the present work, and therefore the absence of this peak in our vibrational spectra is consistent with this interpretation. Osadchii and Gorbaty (2010) found a strong increase in Raman intensities with Fe content at 295 and 325 cm -1 , and…”

“…Vibrational spectroscopy, based on both infra-red and Raman techniques, has been used to experimentally characterize the presence of Fe within the sphalerite structure (Pring et al 2008, Osadchii andGorbaty 2010). Although several peaks may be identified, the interpretation and assignment of these modes is not unambiguous and therefore computational methods can potentially offer some insight.…”

A first principles study of the distribution of iron in sphalerite

“…Scale-up and emission tunability using copper doping were confirmed 38 spectroscopically. Surface characterization was determined using Fourier transform infrared and X-ray 39 photoelectron spectroscopies, which confirmed amino acid as proteins and bacterial fermentation end 40 products not only maintaining a nano-dimensional average crystallite size, but also increasing 41 aggregation. The application of ZnS nanoparticle ink to a functional thin film was successfully tested 42 for potential future applications.…”

Scalable production of microbially mediated zinc sulfide nanoparticles and application to functional thin films