| Abstract
| - This paper reports on the hydrothermal synthesis, structural characterization, and chemical stability−leachabilityof three metal arsenates, namely gallium arsenate dihydrate (GaAsO4·2H2O), indium arsenate dihydrate(InAsO4·2H2O), and lanthanum arsenate (LaAsO4). The new standard synthesis method involves hydrothermalprecipitation at 433 K (160 °C) from equimolar (0.3 M) M(III)−As(V) nitrate solutions over a period of 24h. The produced materials were found to be essentially stoichiometric and to exhibit very good crystallinity.The two dihydrates were found further to be made up of uniformly grown crystallites either aggregated(GaAsO4·2H2O) or nonaggregated (InAsO4·2H2O), reflecting their common orthorhombic crystal habit, whileLaAsO4 consisted of large aggregated particles with monoclinic habit features. In terms of stability, InAsO4·2H2O and LaAsO4 were found to release less than 1 mg/L arsenic when subjected to a TCLP-like leachabilitytest (24 h contact at pH 5) while GaAsO4·2H2O released 2.4 mg/L arsenic. An extended leachability studyover a period of several weeks resulted in higher concentrations of arsenic released via an incongruentdissolution mechanism. Of the three compounds, LaAsO4 was determined to be the most stable with arsenicequilibrium solubility equal to 4 and 13 mg/L, respectively, at pH 5 and 7 at 22 °C.
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