0000000000802284
AUTHOR
M.a. Massucci
In search of layered antimony(III) materials: synthesis and characterization of oxo-antimony(III) catecholate and further studies on antimony(III) phosphate
Abstract A new layered oxo-antimony(III) catecholate, [Sb(C6H4O2)]2O, can be obtained by reacting senarmontite with aqueous catechol. The same reaction performed with valentinite, the other allotropic form of Sb2O3, shows an intermediate hydrate that loses water at about 100°C. Both compounds can be obtained from SbPO4 under appropriate experimental conditions. [Sb(C6H4O2)]2O and the hydrated form, which appear to be layered materials, have been characterized by X-ray diffraction, thermogravimetric/differential thermal analyses, and infrared techniques. Preliminary evidence of a reversible intercalation of pyridine into [Sb(C6H4O2)]2O was collected. Taking into consideration the possible us…
On the synthesis and characterization of layered antimony(III) phosphate and its interaction with moist ammonia and amines
Samples of antimony(III) phosphate, a layered material, were prepared at room temperature, using the two allotropic forms of Sb2O3, layered valentinite and cubic senarmontite. The compounds were characterized by infrared spectroscopy, X-ray diffraction, and thermogravimetric–differential thermal analysis. Solids exposed to ammonia, ethylenediamine, or hydrazine vapors also were studied. The interaction between SbPO4 and the bases always led to the formation of stoichiometric amounts of Sb2O3 and hydrogen phosphate(–2) salts of the bases. With ammonia, the SbPO4 raw materials gave rise to valentinite or senarmontite, depending on which Sb2O3 allotropic form was used to prepare antimony phosp…