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Meeting	MS&T22: Materials Science & Technology
Symposium	Advanced Characterization of Materials for Nuclear, Radiation, and Extreme Environments III
Presentation Title	Probing Short-Range Order in Disordered Crystalline Materials for Extreme Environments
Author(s)	Eric O'Quinn, Devon Drey, William Cureton, Gianguido Baldinozzi, Maik Lang
On-Site Speaker (Planned)	Eric O'Quinn
Abstract Scope	Structurally disordered crystalline materials are used in a variety of energy technologies from solid oxide fuel cells to nuclear fuels and waste forms. Here, we present selected examples of synergistic experimental and modeling approaches that reveal short-range order in oxide materials that appear disordered over longer length scales. Our research strategy focuses on state-of-the-art neutron total scattering experiments with the world’s most intense pulsed neutron beam, the Spallation Neutron Source (ONRL); neutrons scatter intensely from oxygen permitting analysis of anion sublattice behavior and total scattering yields pair distribution function (short-range) data. Results are presented for total scattering experiments with combined first principles and Reverse Monte Carlo modeling that revealed the short-range oxygen clustering in the nuclear fuel UO_2+x. Another example illustrates the analysis of unexpected short-range order in disordered AB₂O₄ spinel and disordered A₂B₂O₇ pyrochlore oxides, proposed for use in lithium battery applications, actinide transmutation matrices, and nuclear waste forms.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Advanced In-situ and Post-Irradiation-Examination Thermal Conductivity Measurements of Nuclear Fuels and Materials

Advanced Synchrotron Characterization of Fission and Fusion Energy Materials

Applications of Cryogenic Nanomechanical Testing

Automated In Situ Deformation Characterization via Analytical SEM during High Temperature Tensile Testing

Characterization of Simultaneous High-energy Proton and Spallation-Neutron Radiation Effects in Structural Alloys

Correlating Irradiation Defect Models to Thermal Conductivity Evolution under Irradiation in ThO2

Defect Structure and Property Evolution in Ion-irradiated Tungsten: Progress towards a Comprehensive Understanding

Deformation Twinning versus Slip in Ni-based Alloys, Containing Pt2Mo-structured, Ni2Cr-typed Precipitates

Detection of Radiation Vulnerability in Microelectronic Systems

Dose Rate Dependent Radiation Enhanced Diffusion in Model Oxides

Elucidating Helium Induced Softening in Nanograin Tungsten Through Electron Microscopy Informed Synchrotron X-Ray Scattering

Europium 3⁺ as a Structural Luminescent Probe in Calcined Ceria Pellets

High-temperature Stable Nanolamellar Transition Metal Carbides Derived from Two-dimensional MXenes for Extreme Environments

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In-situ Thermal Diffusivity Recovery and Defect Annealing Kinetics in Self-ion Implanted Tungsten Using Transient Grating Spectroscopy

In Situ Irradiation of TiO2 Nanotubes

In Situ Monitoring of Heavy Liquid Metal and Molten Salt Corrosion under Irradiation with Proton-induced X-ray Emission (PIXE) Spectroscopy

Machine Learning Algorithms for High-throughput Characterization of Structure and Microstructure of Metals for Extreme Environments

Materials in Extreme Environments Investigated with Positron Spectroscopy

Microstructural Evolution of Alloy 718 under High Temperature In-situ Ion Irradiation with Machine Learning

Neutron Imaging at LANSCE: Characterizing Materials for the Next Generation of Nuclear Reactor Designs

Probing Short-Range Order in Disordered Crystalline Materials for Extreme Environments

Radiation Resistance of Metallic Glass Coatings of Crystalline Nanostructures

Recent Innovations in Machine Learning-based Techniques for In-situ Microscopy Data Analysis

Ring Pull Testing: The Effect of Mandrel Diameter

Thermomechanical Characterization of Advanced Reactor Materials in High Temperature Gas Environments

Three-dimensional Characterization of Multiple Phase Regions within a Neutron Irradiated U-Zr Fuel

Utilizing In-situ Microscopy Techniques to Decipher the Micro-scale Dynamics of Materials in Extreme Environments

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