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RESEARCH PRODUCT
Symmetry and Stability of the Rutile-Based TiO2 Nanowires: Models and Comparative LCAO-Plane Wave DFT Calculations
Yu. F. ZhukovskiiRobert A. EvarestovDmitri B. Migassubject
Crystallographic point groupMaterials sciencePlane waveAb initioNanowireSymmetry groupMolecular physicsSymmetry (physics)Surfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsGeneral EnergyComputational chemistryLinear combination of atomic orbitalsDensity functional theoryPhysical and Theoretical Chemistrydescription
The rod symmetry groups for monoperiodic (1D) nanostructures have been applied for construction of models for bulk-like titania nanowires (NWs) cut from a rutile-based 3D crystal along the direction of a chosen crystallographic symmetry axis (in this study we consider only Ti atom-centered axes). The most stable [001]-oriented TiO2 NWs with rhombic cross sections are found to display the energetically preferable {110} facets only, while the nanowires with quasi-square sections across the [110] axis are formed by the alternating {110} and {001} facets. For simulations on rutile-based nanowires possessing four different diameters for each NW type, we have performed comparative large-scale ab initio Density Functional Theory (DFT) calculations with total geometry optimization within the Generalized Gradient Approximation (GGA), using the two different formalisms: (i) linear combination of localized atomic functions (LCAO) and (ii) plane waves (PW). Both approaches have been used for calculations of: (a) the ...
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-06-06 | The Journal of Physical Chemistry C |