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Vibrational Spectroscopy and Dehydroxylation of Aluminum (Oxo)hydroxides: Gibbsite

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The infrared absorption, infrared emission, and Fourier transform (FT)-Raman spectra of a series of gibbsites well defined by X-ray diffraction have been obtained. Hydroxyl stretching frequencies were found at ~ 3670, 3620, 3524, 3452, 3395, 3375, and ~ 3300 cm-1. Hydroxyl deformation vibrations were observed at 1059, 1023, 969, 938, and 915 cm-1. Hydroxyl stretching bands were observed in the Raman spectra at 3524, 3436, and 3365 cm-1 and correspond well with the three infrared bands. These bands are both Raman and infrared active. The bands at ~ 3670, 3620, and 3395 cm-1 are infrared active only. The hydroxyl stretching frequencies show a pronounced blue shift, while the hydroxyl deformation modes show a pronounced red shift. Infrared absorption bands were observed at 3413, 3283, and 3096 cm-1 for the hydroxyl stretching frequencies and at 1024, 969, and 914 cm-1 for the hydroxyl deformation frequencies. Low-frequency infrared absorption vibrations were found at ~ 860, 838, 800, 747, 666, ~ 625, 585, 560, 522, 452, and 423 cm-1 and infrared emission bands at 834, 778, 728, 652, 640, 609, 580, 512, and 489 cm-1. The infrared emission low-frequency bands moved to higher frequencies upon thermal treatment. The dehydroxylation of gibbsite was followed by the combination of infrared emission spectroscopy and differential thermal analysis over the 200 to 750 C temperature ranges. Dehydroxylation is followed by the loss of intensity of the hydroxyl stretching frequencies observed at 3620 and 3351 cm-1 and by the loss of intensity of the hydroxyl deformation modes at 1024 cm-1. Dehydroxylation starts at 220 C and is complete by 350 C. Some variation in the gibbsite endotherms was found between the synthetic and natural gibbsite dehydroxylations. Spectral changes in the low-frequency bands confirm that dehydroxylation commenced at 220 C.


Document Type: Research Article

DOI: http://dx.doi.org/10.1366/0003702991946884

Publication date: April 1, 1999

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