9 research outputs found
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From AgâSbâOâ to CdâSbâOâ: Investigations on an anion-deficient to ideal pyrochlore solid solution
A complete solid solution between the anion-deficient pyrochlore AgâSbâOâ and the ideal pyrochlore CdâSbâOâ has been synthesized through the standard solid state ceramic method. Each composition has been characterized by various different techniques, including powder X-ray diffraction, optical spectroscopy, electron paramagnetic resonance and ÂčÂČÂčSb Mössbauer spectroscopy. Computational methods based on density functional theory complement this investigation. Photocatalytic activity has been studied, and transport properties have been measured on pellets densified by spark plasma sintering. The analysis of the data collected from these various techniques enables a comprehensive characterization of the complete solid solution and revealed an anomalous behavior in the Cd-rich end of the solid solution, which has been proposed to arise from a possible radical Oâ» species in small concentrations.Keywords: CdâSbâOâ, Thermogravimetric analysis, AgâSbâOâ, ÂčÂČÂčSb Mössbauer spectroscopy, Optical properties, Pyrochlor
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Optical, electronic, and thermodynamic properties of layered mixed anion compounds
Mixed anion compounds that form ZrCuSiAs-type crystal structures exhibit remarkable properties such as superconductivity at low temperatures,
hole conduction with optical transparency in the visible region, and exciton absorption at room temperature. In this thesis, properties of a selected group of materials out of the very large set of mixed anion compounds with the ZrCuSiAs-type structure are investigated by computational first principles methods. The discovery of superconductivity in LaFePO (T[subscript C] ~ 4 K) and LaFeAsO[subscript 1-x]F[subscript x] (T[subscript C] ~ 26 K) naturally led to the speculation that LaFeSbO is possibly a superconductor with an even higher transition temperature. However, all attempts to synthesize LaFeSbO failed. We performed a theoretical chemical stability analysis based on ab initio density functional theory (DFT) and determined that LaFeSbO is not stable with respect to all synthesis conditions. Instead LaâSbOâ is found with most synthesis conditions and indeed this was found experimentally. A local stability analysis for LaFeSbO based on the calculation of the phonon dispersion curves from DFT supercells calculations reveals that LaFeSbO is potentially metastable, which opens up the possible synthesis by a non-equilibrium process. Layered oxychalcogenides LaCuChO (Ch = {S,Se,Te}) and isostructural layered fluorochalcogenides BaCuChF have drawn much interest in recent years as p-type wide bandgap semiconductors with applications in transparent electronics and photovoltaics. Previous experimental and computational studies concluded for both LaCuChO, with bandgaps between 2.4-3.1 eV, and BaCuChF, with optical bandgaps between 2.8-3.5 eV, that p-type conductivity is primarily due to copper vacancies. But, until now no quantitative defect analysis has been performed for LaCuChO. Furthermore, members of both materials show strong excitonic absorption features, which are observable at room and higher temperatures. However, disagreement exists in the literature on the origin and nature of the room temperature excitons in the respective families of materials, attributing the room temperature excitonic absorption in LaCuChO to 2 dimensional quantum confinement of hole carriers in the layered structure, and room temperature excitonic absorption in BaCuChF is described by a 3 dimensional Wannier-Mott excitonic model. A comparative ab initio computational study of the defect physics and optical properties including the excitonic effects for both families of materials has been conducted. Point defects and defect complexes are taken into account and previously omitted corrections have been included, while accurate chemical potential stability diagrams and formation energies are calculated using recently improved methods. The optical properties are calculated using the Bethe-Salpeter equation in the GW approximation
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SubramanianMasChemistryFromAg2Sb2O6.pdf
A complete solid solution between the anion-deficient pyrochlore AgâSbâOâ and the ideal pyrochlore CdâSbâOâ has been synthesized through the standard solid state ceramic method. Each composition has been characterized by various different techniques, including powder X-ray diffraction, optical spectroscopy, electron paramagnetic resonance and ÂčÂČÂčSb Mössbauer spectroscopy. Computational methods based on density functional theory complement this investigation. Photocatalytic activity has been studied, and transport properties have been measured on pellets densified by spark plasma sintering. The analysis of the data collected from these various techniques enables a comprehensive characterization of the complete solid solution and revealed an anomalous behavior in the Cd-rich end of the solid solution, which has been proposed to arise from a possible radical Oâ» species in small concentrations.Keywords: Optical properties, ÂčÂČÂčSb Mössbauer spectroscopy, AgâSbâOâ, CdâSbâOâ, Pyrochlore, Thermogravimetric analysisKeywords: Optical properties, ÂčÂČÂčSb Mössbauer spectroscopy, AgâSbâOâ, CdâSbâOâ, Pyrochlore, Thermogravimetric analysi
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SubramanianMasChemistryFromAg2Sb2O6(Erratum).pdf
A complete solid solution between the anion-deficient pyrochlore AgâSbâOâ and the ideal pyrochlore CdâSbâOâ has been synthesized through the standard solid state ceramic method. Each composition has been characterized by various different techniques, including powder X-ray diffraction, optical spectroscopy, electron paramagnetic resonance and ÂčÂČÂčSb Mössbauer spectroscopy. Computational methods based on density functional theory complement this investigation. Photocatalytic activity has been studied, and transport properties have been measured on pellets densified by spark plasma sintering. The analysis of the data collected from these various techniques enables a comprehensive characterization of the complete solid solution and revealed an anomalous behavior in the Cd-rich end of the solid solution, which has been proposed to arise from a possible radical Oâ» species in small concentrations.Keywords: Pyrochlore, ÂčÂČÂčSb Mössbauer spectroscopy, AgâSbâOâ, Thermogravimetric analysis, Optical properties, CdâSbâO
A Self-Regulating Gap Junction Network of Amacrine Cells Controls Nitric Oxide Release in the Retina
From Ag2Sb2O6 to Cd2Sb2O7: Investigations on an anion-deficient to ideal pyrochlore solid solution
A complete solid solution between the anion-deficient pyrochlore Ag2Sb2O6 and the ideal pyrochlore Cd2Sb2O7 has been synthesized through the standard solid state ceramic method. Each composition has been characterized by various different techniques, including powder X-ray diffraction, optical spectroscopy, electron paramagnetic resonance and 121Sb Mössbauer spectroscopy. Computational methods based on density functional theory complement this investigation. Photocatalytic activity has been studied, and transport properties have been measured on pellets densified by spark plasma sintering. The analysis of the data collected from these various techniques enables a comprehensive characterization of the complete solid solution and revealed an anomalous behavior in the Cd-rich end of the solid solution, which has been proposed to arise from a possible radical Oâ species in small concentrations