Katharine Page R & D Staff Member Contact 865.574.3007 | PAGEKL@ORNL.GOV All Publications Precise implications for real-space pair distribution function modeling of effects intrinsic to modern time-of-flight neutron diffractometers A numerical method for deriving shape functions of nanoparticles for pair distribution function refinements Decoding Oxyanion Aqueous Solvation Structure: A Potassium Nitrate Example at Saturation Structure-Induced Reversible Anionic Redox Activity in Na Layered Oxide Cathode Combinatorial appraisal of transition states for in situ pair distribution function analysis Multimodality of Structural, Electrical, and Gravimetric Responses of Intercalated MXenes to Water Pair distribution function analysis applied to decahedral gold nanoparticles Erratum: a High Precision Gas Flow Cell for Performing In Situ Neutron Studies of Local Atomic Structure In Catalytic Materials [rev. Sci. Instrum. 88, 034101 (2017)] Quantitative Analysis of the Morphology of {101} and {001} Faceted Anatase TiO 2 Nanocrystals and Its Implication on Photocatalytic Activity Synthesis and structure of synthetically pure and deuterated amorphous (basic) calcium carbonates... A high precision gas flow cell for performing in situ neutron studies of local atomic structure in catalytic materials Evolution of the pore structure during the early stages of the alkali-activation reaction: an in situ small-angle neutron scattering investigation Structures, Phase Transitions and Tricritical Behavior of the Hybrid Perovskite Methyl Ammonium Lead Iodide Hydrogen adsorption on two catalysts for the ortho- to parahydrogen conversion: Cr-doped silica and ferric oxide gel Resolving the Structure of Ti3C2Tx MXenes through Multi-Level Structural Modeling of the Atomic Pair Distribution Function... Dshaper - a program for handling missing low-Q data during pair distribution function analysis of nanostructured systems... DShaper: an approach for handling missing low-Q data in pair distribution function analysis of nanostructured systems Resolving the Structure of Ti3C2Tx MXenes through Multilevel Structural Modeling of the Atomic Pair Distribution Function Resolving the Structure of Ti<sub>3</sub>C<sub>2</sub>T<sub>x</sub> MXenes through Multilevel Structural Modeling of the Atomic Pair Distribution Function Pagination First page 竄 First Previous page 嫖傭 Page 1 Page 2 Current page 3 Key Links Curriculum Vitae Organizations Diffraction Section Powder Diffraction Group
