Abstract
ABSTRACT Raman spectroscopy of the mineral partzite Cu2Sb2(O,OH)7 complemented with infrared spectroscopy were studied and related to the structure of the mineral. The Raman spectrum shows some considerable complexity with a number of overlapping bands observed at 479, 520, 594, 607, and 620 cm−1 with additional low-intensity bands found at 675, 730, 777, and 837 cm−1. Raman bands of partzite in the spectral region 590 to 675 cm−1 are attributable to the ν1 symmetric stretching modes. The Raman bands at 479 and 520 cm−1 are assigned to the ν3 antisymmetric stretching modes. Raman bands at 1396 and 1455 cm−1 are attributed to SbOH deformation modes. A complex pattern resulting from the overlapping band of the water and OH units is found. Raman bands are observed at 3266, 3376, 3407, 3563, 3586, and 3622 cm−1. The first three bands are assigned to water stretching vibrations. The three higher wavenumber bands are assigned to the stretching vibrations of the OH units. It is proposed that based upon observation of the Raman spectra that water is involved in the structure of partzite. Thus, the formula Cu2Sb2(O,OH)7 may be better written as Cu2Sb2(O,OH)7·xH2O.
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