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W1993926972 abstract "The supercell slab is the structural model used in first-principles simulations to determine thermodynamic, kinetic, and electronic properties of surfaces and interfaces. We present a general algorithm to reorient bulk unit cells using basis and covariant transformations — the first step for constructing surface slabs of any Miller index from bulk unit cells of any Bravais lattice. We further review and discuss subtleties of surface slab creation relevant for performing efficient and accurate calculations of surface properties. We also demonstrate that the nonconvergence of surface energy with respect to slab thickness can be mitigated if the bulk reference energy is calculated from a surface-oriented bulk unit cell, which eliminates Brillouin zone integration errors between the slab and the bulk. Using Pt(111) and Si(111) surfaces as examples, this technique converges the surface energy with respect to slab thickness requiring only one bulk and one relatively thin slab calculation, with moderate k-point densities. This process is about an order of magnitude more efficient than popular surface energy convergence techniques involving multiple slab calculations." @default.
W1993926972 created "2016-06-24" @default.
W1993926972 creator A5014983956 @default.
W1993926972 creator A5034826017 @default.
W1993926972 date "2013-11-01" @default.
W1993926972 modified "2023-10-16" @default.
W1993926972 title "Efficient creation and convergence of surface slabs" @default.
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W1993926972 doi "https://doi.org/10.1016/j.susc.2013.05.016" @default.
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