The Rb2.42(NH4)0.58(HAsO4)(H2AsO4). Te(OH)6 crystals(denoted by RbNAsTe) crystallize in the monoc-linic system, space group P21/n with the following parameters: a=1.3059(5) nm, b=0.6755(3) nm, c=1.6675...The Rb2.42(NH4)0.58(HAsO4)(H2AsO4). Te(OH)6 crystals(denoted by RbNAsTe) crystallize in the monoc-linic system, space group P21/n with the following parameters: a=1.3059(5) nm, b=0.6755(3) nm, c=1.6675(6) rim,β=94.126(4)°, Z=4 and V=1.46733(10) nm^3. Thermal analyses(DSC, DTA and TG) confirm the presence of the phasetransition and the temperatttre of the decomposition. The vibrational spectroscopy study at room temperature showthe presence and the independence of anionic groups, cationic groups, and give more importance to the hydrogenbonds. Raman spectra were recorded in the temperature range of 298--503 K. The temperature dependence of theRaman line shift, intensity reduction and the half width detects the phase transitions and confirms their nature. So, thephase transition at 453 K corresponds to the superprotonic-ionic conduction phase transition, and those at 483 and491 K correspond to the decomposition of our material.展开更多
文摘The Rb2.42(NH4)0.58(HAsO4)(H2AsO4). Te(OH)6 crystals(denoted by RbNAsTe) crystallize in the monoc-linic system, space group P21/n with the following parameters: a=1.3059(5) nm, b=0.6755(3) nm, c=1.6675(6) rim,β=94.126(4)°, Z=4 and V=1.46733(10) nm^3. Thermal analyses(DSC, DTA and TG) confirm the presence of the phasetransition and the temperatttre of the decomposition. The vibrational spectroscopy study at room temperature showthe presence and the independence of anionic groups, cationic groups, and give more importance to the hydrogenbonds. Raman spectra were recorded in the temperature range of 298--503 K. The temperature dependence of theRaman line shift, intensity reduction and the half width detects the phase transitions and confirms their nature. So, thephase transition at 453 K corresponds to the superprotonic-ionic conduction phase transition, and those at 483 and491 K correspond to the decomposition of our material.
