G. Carbajal-Franco scite author profile

Germanium dioxide (GeO2) crystals were prepared by precipitation from water solution of ammonium germanate with nitric acid at a relatively low-temperature (100 °C). The grown GeO2 crystals were characterized to study their microstructure and chemical analysis using X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), infrared (IR) spectroscopy, and Raman spectroscopy techniques. The results indicate that the grown GeO2 crystals exhibit α-quartz type crystal structure. The lattice parameters obtained from XRD were a = 4.987(4) Å and c = 5.652(5) Å. The crystals formed were submicrometer in size and exhibited uniform shape and diameter, which is about 500 nm. The characterization using microscopic and spectroscopic measurements indicate a high structural quality of GeO2 crystals, in terms of control for morphology, single-phase, and chemical bonding and local structure, grown using the present approach.

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Optical properties and thermal stability of germanium oxide (GeO2) nanocrystals with α-quartz structure

Ramana

Carbajal-Franco

Vemuri

et al. 2010

Materials Science and Engineering: B

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Thin film tin oxide-based propane gas sensors

et al. 2000

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Oriented-Attachment- and Defect-Dependent PbTe Quantum Dots Growth: Shape Transformations Supported by Experimental Insights and DFT Calculations

et al. 2021

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High-resolution transmission electron microscopy results reveal that oriented-attachment- and defect-dependent mechanisms rule the size and shape evolution of the monodispersed PbTe quantum dots (QDs). The former is characterized by the growth of quasi-cubic PbTe QDs, which depends on both the geometric constraints imposed by the {200} facets and the defect-free lattice, while the latter one is a defect-dependent mechanism which gives way to the formation of decahedral PbTe QDs (∼6 nm). Experimentally, formaldehyde is an important parameter for the mechanochemical synthesis of monodispersed PbTe QDs, which has not been studied until now. In a theoretical context, Fukui functions reveal that Pb surface atoms are the most reactive sites toward nucleophilic attacks, and the Lowdin charge analysis shows that formaldehyde molecules tend to donate their electron pairs to Pb atoms. Besides, formaldehyde-molecule-on-PbTe adsorption energies (−4.46 to −21.16 kcal mol–1) agree with ligand–surface polar electrostatic interactions. Based on dispersion-corrected density functional theory calculations, PbTe QDs exhibited decahedral and faceted shapes. According to modified Wulff constructions, the decahedral shape is a result of (111) facets (Δγ = −2.79 meV Å–2), whereas the faceted and rounded shapes are due to the interaction of (100), (110), and (111) facets.

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