Skip to content

A collection of crystal structures from first-principles simulations

License

Notifications You must be signed in to change notification settings

WMD-group/Crystal_structures

Repository files navigation

License: CC BY 4.0

Crystal Structures

A collection of crystal structures optimised from first-principles calculations.

Crystal structures of Sb-based photoactive ferroelectric semiconductors using DFT/PBEsol.

Used in

Crystal structures of Sb2S3, Cs2Sb8S13 and (CH3NH3)2Sn8S13 optimised using DFT/PBEsol.

Used in

Crystal structure of bismuth vanadate. Taken from ICSD record #33243 (1983). Note that the structure was originally reported in a non-standard setting (the monoclinic angle is set to gamma). To make more compatible with the lattice symmetry in VASP, the cell was transformed into a standard C2/c setting (the cell volume remains unchanged, but the monoclinic angle becomes beta). In some publications, the angles of gamma and beta are erroneously switched.

Used in

Crystal structure of bismuth tungstate. Relaxation were performed using PBEsol function as implemented in VASP package. This is the conventional and primitive cell of the material.

Crystal structures for the kesterite and stannite forms of Cu2ZnSnS4 (CZTS). The structures were optimised using the PW91 (2009 data) or PBEsol / HSE06 (2015 data) exchange-correlation functional. Note that most of these files correspond to the conventional unit cells (16 atoms per cell), while a primitive cell (8 atoms per cell) also exists.

Used in

Crystal structures for a range of metal-organic frameworks.

MIL-125: The structure reported by Dan Hardi et al. in 2009 (DOI: 10.1021/ja903726m) from X-ray diffraction contained no hydrogen positions. Multiple configurations were tested, with the final structure (Ti16C96O72H56) resulting in a large electronic band gap.
Used in
A selection of PBEsol optimised structures including COF-1M, CPO-27/MOF-74, HKUST-1, Zn2-TTFTB, Cd2-TTFTB, MOF-5, UiO-66 and UiO-67.
Used in

Organic-inorganic perovskite structured materials are covered in their own repository.

PBEsol relaxed structure of a conductive Pt(II) double salt crystallised by the group of Ken Sakai.

Used in

Normal and inverse spinel structures (fcc primitive unit cells). The normal spinel structure is an ordered lattice of A(tetrahedral)B(octahedral)2O4, while the inverse spinel structure is a disordered lattice of B(tetrahedral)AB(octahedral)O4. Site disorder in the inverse structure requires special treatment: we generated a representative structure using the SQS method (see http://www.brown.edu/Departments/Engineering/Labs/avdw/atat/).

Used in

Structure of three sulfosalt materials with ion coordinates relaxed with HSE06: enargite (Cu3AsS4), stephanite (Ag5SbS4) and bournonite (CuPbSbS3).

Used in
  • "Candidate photoferroic absorber materials for thin- film solar cells from naturally occurring minerals: enargite, stephanite, and bournonite" Sustainable Energy & Fuels (2017)

About

A collection of crystal structures from first-principles simulations

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Contributors 3

  •  
  •  
  •