Your search keyword '"Richard I. Ainsworth"' showing total 2 results

1. Polarizable force field development and molecular dynamics study of phosphate-based glasses

Author

Jamieson K. Christie, Richard I. Ainsworth, Nora H. de Leeuw, and Devis Di Tommaso

Subjects

Coordination number, Inorganic chemistry, Ab initio, Molecular Conformation, General Physics and Astronomy, Models, Theoretical, Molecular Dynamics Simulation, Phosphorus Compounds, chemistry.chemical_compound, Molecular dynamics, chemistry, Ab initio quantum chemistry methods, Polarizability, Physical chemistry, Orthorhombic crystal system, Glass, Physical and Theoretical Chemistry, Phosphorus pentoxide, Dissolution

Abstract

Molecular dynamics simulations of phosphate-based glasses P(2)O(5)-CaO-Na(2)O have been carried out, using an interatomic force field that has been parameterized to reproduce the structural and mechanical properties of crystalline phosphorus pentoxide, o(')(P(2)O(5))(∞) orthorhombic phase. Polarization effects have been included through the shell-model potential and formal charges have been used to aid transferability. A modification to the DL_POLY code (version 2.20) was used to model the high temperature shell dynamics. Structural characterizations of three biomedically applicative molar compositions, (P(2)O(5))(0.45)(CaO)(x)(Na(2)O)(0.55-x) (x = 0.30, 0.35, and 0.40), have been undertaken. Good agreement with available experimental and ab initio data is obtained. The simulations show that, dependent on composition, the phosphorus atoms are primarily bonded to two or three oxygens that in turn bridge to neighbouring phosphorus atoms. Na(+) and Ca(2+) modifiers are found to occupy a pseudo-octahedral bonding environment with mean oxygen coordination numbers of 6.55 and 6.85, respectively, across all compositions studied.

Published

2012

2. A density functional theory study of structural, mechanical and electronic properties of crystalline phosphorus pentoxide

Author

Nora H. de Leeuw, Richard I. Ainsworth, and Devis Di Tommaso

Subjects

Models, Molecular, General Physics and Astronomy, Ionic bonding, Thermodynamics, Electrons, Pseudopotential, Condensed Matter::Materials Science, X-Ray Diffraction, Physical and Theoretical Chemistry, Electronic band structure, Mechanical Phenomena, Ions, Valence (chemistry), Chemistry, Charge density, Phosphorus Compounds, Silicon Dioxide, Elasticity, Crystallography, Chemical bond, Density of states, Anisotropy, Quantum Theory, Density functional theory, Crystallization, Algorithms

Abstract

Quantum mechanical calculations of single crystal phosphorus pentoxide (P(2)O(5)) have been conducted using the plane-wave ultrasoft pseudopotential technique based on the density functional theory (DFT), in the generalized gradient approximation, with dispersive correction (DFT-D). The implementation of the dispersive correction is shown to improve significantly the structural agreement with experiment, compared to standard plane-wave DFT. The second order elastic constants for the o'(P(2)O(5))(∞) and o(P(2)O(5)) orthorhombic phases were obtained from a polynomial fit to the calculated energy-strain relation. Both phases are shown to be highly elastically anisotropic due to structural features. Polycrystalline aggregate properties have been evaluated to give complete mechanical descriptions. Further investigation of the electronic band structure and density of states has been completed. Analysis of the complex chemical bonding has been carried out using Lowdin atomic charge and valence charge density data showing mixed ionic and covalent character in both phases.

Published

2011