A vibrational spectroscopic study of the phosphate mineral vantasselite Al4(PO4)3(OH)3·9H2O

Abstract: We have studied the phosphate mineral vantasselite Al₄(PO₄)₃(OH)₃·9H₂O using a combination of SEM with EDX and Raman and infrared spectroscopy. Qualitative chemical analysis shows Al, Fe and P. Raman bands at 1013 and 1027 cm(-1) are assigned to the PO₄(3-)ν₁ symmetric stretching mode. The observation of two bands suggests the non-equivalence of the phosphate units in the vantasselite structure. Raman bands at 1051, 1076 and 1090 cm(-1) are attributed to the PO₄(3-)ν₃ antisymmetric stretching vibration. A comp… Show more

“…At 110°C, additional bands appear at 1230, 1180 cm -1 ( P-O) , 730 and 715 cm -1 ( Al-O) attributed to AlPO 4 with tridymite-and cristobalite-like structures [20,21]. Moreover, the contribution located at 1130 cm -1 can be assigned to the  P-O of all AlPO 4 polymorphs [20,22]. In the temperature range 110°C-200°C, bands at 1114 cm Moreover, those data prove the existence of aluminophosphate nuclei, which is in agreement with the previous study of the geopolymer consolidation.…”

“…The 1800 to 600 cm -1 parts of the spectra are presented in Figure 7B. At room temperature, contributions at 1220 (w), 1155 (w), 1095 and 920 cm -1 are typical of stretching P-O bands of hydrated aluminophosphate [22,27]. The bands corresponding to Si-O-Si species (Q 4 , Q 3 , Q 2 , Q 1 ) are overlapped by the P-O contributions and only the bending of Si-O-Si is detected at 800 cm -1 .…”

“…It is also a refractory phase isostructural with silica with many polymorphs, the most common ones being berlinite (hexagonal), cristobalite (triclinic, hexagonal) and tridymite (orthorhombic, cubic) [ 16 ]. Those main polymorphs can be differentiated by X-Ray Diffraction (XRD) [17,18,19], Fourier-Transform Infrared (FTIR) [20,21,22] and Nuclear Magnetic Resonance (NMR) [23,24,25] spectroscopies. Finally, AlPO 4 also exists in various hydrated AlPO 4 .xH 2 O phases which can be characterized by XRD [26,27] and FTIR spectroscopy [22,27] as well.…”

Acid-based geopolymers: Understanding of the structural evolutions during consolidation and after thermal treatments

“…At 110°C, additional bands appear at 1230, 1180 cm -1 ( P-O) , 730 and 715 cm -1 ( Al-O) attributed to AlPO 4 with tridymite-and cristobalite-like structures [20,21]. Moreover, the contribution located at 1130 cm -1 can be assigned to the  P-O of all AlPO 4 polymorphs [20,22]. In the temperature range 110°C-200°C, bands at 1114 cm Moreover, those data prove the existence of aluminophosphate nuclei, which is in agreement with the previous study of the geopolymer consolidation.…”

“…The 1800 to 600 cm -1 parts of the spectra are presented in Figure 7B. At room temperature, contributions at 1220 (w), 1155 (w), 1095 and 920 cm -1 are typical of stretching P-O bands of hydrated aluminophosphate [22,27]. The bands corresponding to Si-O-Si species (Q 4 , Q 3 , Q 2 , Q 1 ) are overlapped by the P-O contributions and only the bending of Si-O-Si is detected at 800 cm -1 .…”

“…It is also a refractory phase isostructural with silica with many polymorphs, the most common ones being berlinite (hexagonal), cristobalite (triclinic, hexagonal) and tridymite (orthorhombic, cubic) [ 16 ]. Those main polymorphs can be differentiated by X-Ray Diffraction (XRD) [17,18,19], Fourier-Transform Infrared (FTIR) [20,21,22] and Nuclear Magnetic Resonance (NMR) [23,24,25] spectroscopies. Finally, AlPO 4 also exists in various hydrated AlPO 4 .xH 2 O phases which can be characterized by XRD [26,27] and FTIR spectroscopy [22,27] as well.…”

Acid-based geopolymers: Understanding of the structural evolutions during consolidation and after thermal treatments

“…More specifically, the bands located at 3680, 3570, 3440, 3350 and 3240 cm -1 are respectively attributed to the following bonds: P-OH, SiOH (asym and sym), OH -AlPO4 and bonded H2O[11,22,23]. The contributions around 1640 cm -1 are assigned to the bending of P-OH and water molecules, those at 1220 (w), 1155 (w), 1095 and 920 cm -1 to the stretching of P-O from hydrated aluminophosphates[24,25], and the one at 800 cm -1 is related to the bending of Si-O-Si bonds. The bands in the range 1300-500 cm -1 do not evolve significantly with the addition of water and their identification remains complex due to the presence of silicate species in the same region.…”

Control of the alumino-silico-phosphate geopolymers properties and structures by the phosphorus concentration

“…The lines at 1637 cm −1 and 1515 cm −1 (Nos. 5 and 8), observed in three new crystals, probably correspond to oscillations inside the water molecule [48][49][50]. Figure 9 demonstrates the polarized Raman spectra of the MBI-phosphite crystal (recorded by T64000 Advanced Research Raman System) in different experimental geometries.…”

Crystal Structure, Raman Spectroscopy and Dielectric Properties of New Semiorganic Crystals Based on 2-Methylbenzimidazole