sknano.structures.PrimitiveCellGraphene¶

class sknano.structures.PrimitiveCellGraphene(edge_length=None, **kwargs)[source][source]¶

Graphene structure class built from a primitive unit cell.

New in version 0.3.11.

Parameters:

Parameters:	edge_length : float length of graphene edges basis : {`list`}, optional List of `str`s of element symbols or atomic number of the two atom basis (default: [‘C’, ‘C’]) bond : float, optional \(\mathrm{a}_{\mathrm{CC}} =\) distance between nearest neighbor atoms. Must be in units of Angstroms. nlayers : int, optional Number of graphene layers (default: 1) layer_spacing : float, optional Distance between layers in Angstroms (default: 3.35). stacking_order : {‘AA’, ‘AB’}, optional Stacking order of graphene layers. layer_rotation_angles : list, optional list of rotation angles for each layer in degrees if degrees is True (default), otherwise in radians. The list length must equal the number of layers. layer_rotation_increment : float, optional incremental layer rotation angle in degrees if degrees is True (default), otherwise in radians. Each subsequent layer will be rotated by layer_rotation_increment relative to the layer below it. verbose : bool, optional verbose output

edge_length : float

length of graphene edges

basis : {list}, optional

List of strs of element symbols or atomic number of the two atom basis (default: [‘C’, ‘C’])

bond : float, optional

\(\mathrm{a}_{\mathrm{CC}} =\) distance between nearest neighbor atoms. Must be in units of Angstroms.

nlayers : int, optional

Number of graphene layers (default: 1)

layer_spacing : float, optional

Distance between layers in Angstroms (default: 3.35).

stacking_order : {‘AA’, ‘AB’}, optional

Stacking order of graphene layers.

layer_rotation_angles : list, optional

list of rotation angles for each layer in degrees if degrees is True (default), otherwise in radians. The list length must equal the number of layers.

layer_rotation_increment : float, optional

incremental layer rotation angle in degrees if degrees is True (default), otherwise in radians. Each subsequent layer will be rotated by layer_rotation_increment relative to the layer below it.

verbose : bool, optional

verbose output

Attributes

`N`	Number of graphene unit cells.
`Natoms`	Total number of atoms.
`Natoms_per_layer`	Number of atoms per layer.
`Natoms_per_unit_cell`	Number of atoms per unit cell.
`area`	Total area of graphene supercell.
`atoms`	Structure `StructureAtoms`.
`basis`	`NanoStructureBase` basis atoms.
`crystal_cell`	Structure `CrystalCell`.
`element1`	Basis element 1
`element2`	Basis element 2
`fmtstr`	Format string.
`lattice`	Structure `Crystal3DLattice`.
`n1`
`n2`
`r1`
`r2`
`scaling_matrix`	`CrystalCell.scaling_matrix`.
`structure`	Pointer to self.
`structure_data`	Alias for `BaseStructureMixin.structure`.
`unit_cell`	Structure `UnitCell`.
`vdw_distance`	van der Waals distance.
`vdw_radius`	van der Waals radius

Methods

`clear`()	Clear list of `BaseStructureMixin.atoms`.
`make_supercell`(scaling_matrix[, wrap_coords])	Make supercell.
`read_data`(args, *kwargs)
`read_dump`(args, *kwargs)
`read_xyz`(args, *kwargs)
`rotate`(**kwargs)	Rotate crystal cell lattice, basis, and unit cell.
`todict`()
`transform_lattice`(scaling_matrix[, ...])
`translate`(t[, fix_anchor_points])	Translate crystal cell basis.
`write_data`(**kwargs)
`write_dump`(**kwargs)
`write_xyz`(**kwargs)