Abstract
Abstract The metastable nanocrystalline γ form of gallium oxide has been prepared and its microstructure and thermochemistry have been studied for the first time by employing X-ray and electron diffraction, high-resolution transmission electron microscopy, adiabatic and differential scanning calorimetry. The randomly oriented crystallites of maximum 5 nm in size have been observed. The sponge-like morphology of γ-Ga2O3 particles may explain the high specific surface area, previously reported for this material. The defect spinel-type structure of γ-Ga2O3 is similar to that of γ and η-Al2O3. Up to 5.7 wt.% of water can be stored in γ-Ga2O3 and subsequently released at elevated temperatures. Dry γ-Ga2O3 specifically absorbs atmospheric water at room temperature. The transformation of γ-Ga2O3 into stable β-Ga2O3 occurs in two steps. In the range 650–800 K, γ'-Ga2O3 is formed in the course of a reversible higher-order phase transition. The latter irreversibly transforms into β-form above 873 K. The enthalpy of this exothermic transformation is determined as –19.3 ± 0.4 kJ · mol–1. The coefficients of the Gibbs energy equation for γ and γ'-Ga2O3 have been assessed.
Published Version
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