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ORNL Research Areas

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Highlights

• Improved Method to Clean-Up Legacy Radioactive Waste

• Smart Molecule Reveals Surface Structure and Reactivity of Ceria Nanoshapes

• Condensed phase growth of nanooysters from Fe-decorated single-wall carbon nanohorns

• Can it be made?  Predicting synthesizable, high-response oxide piezoelectrics

• Effects of three-nucleon forces and scattering states shape exotic isotopes of oxygen and calcium

• Measuring the gyromagnetic factor of the 2+ state in 126Sn via the transient field technique

• Book Highlights Scientific Progress in Solvent Extraction Related to Nuclear Fuel Recycle
• Probing cometary effects in proton-rich radioactive nuclei
• Making sense of “Aluminum-26 Light”
• Self-healing Diffusion Quantum Monte Carlo Algorithms: Direct Reduction of the Fermion Sign Error in Electronic Structure Calculations
• Angle Neutron Scattering Study of Conformation of Oligo(ethylene glycol)-Grafted Polystyrene in Dilute Solutions: Effect of the Backbone Length
• Structural Surprises Above Double-magic ¹⁰⁰Sn
• Direct Imaging of Catalyst Evolution with Atomic Resolution
• Center for Defect Physics in Structural Materials
• Interfacial Oxide Heterostructures: Converting and Manipulating Energy Quanta by Interfacing
• Mechanistic Study of the Thermal Decomposition of Lignin Model Compounds: A synergy between experiment and simulation
• Low Activation Materials Development and Analysis
• Seeing the Real World through Ambient Mass Spectrometry-Based Chemical Imaging
• Revolutionary Advances in Energy Technologies: High-Temperature Superconductors
• Structure and Interfacial Dynamics of Electrical Energy Storage Materials
• Phenix Paper Becomes Renowned
• Pulsed Laser Dewetting of Patterned Thin Metal Films: A Means of Directed Assembly
• Zinc Oxide Microtowers by Vapor Phase Homoepitaxial Regrowth
• Lignin Thermal Decomposition Explained Through New Computational Studies
• Synthesis Science: Exploring the Role of Charge in Foundation of Metal Clusters on Nanostructured Carbons
• Research at ORNL is Coupling Mass Spectrometry and Planar Separations
• Self-healing Diffusion Quantum Monte Carlo Algorithms: Direct Reduction of the Fermion Sign Error in Electronic Structure Calculations
• Thermomagnetic Processing Technology