Diamond
The hardest natural material — pure carbon locked in a cubic lattice
← Allotrope of Carbon
Every engagement ring contains this exact arrangement of carbon atoms.
The cubic allotrope of carbon — each atom tetrahedrally bonded to four neighbours.
Material
Gallery canvas set in a solid wood floating frame.
Frame
Black
$70.00
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See it on your wall
Shown true-to-size - a 8×10in piece scaled against real furniture.
Crystallography
| Catalogue identity | Diamond — Fd-3m |
| Formula | C |
| Crystal system | cubic |
| Space group | F d -3 m :2 |
| Lattice (a, b, c) Å | 3.566636, 3.566636, 3.566636 |
| Angles (α, β, γ) ° | 90, 90, 90 |
| Density (g/cm³) | 3.5168 |
Structure data: Crystallography Open Database · Public domain (CC0)
Allotropes
Carbon — C c m m
Carbon — C m m a
Carbon — C m m m
Carbon — Fm-3
Carbon — F m m m
Carbon — I -4 3 d
Carbon — I a -3
Carbon — I m -3
Carbon — Immm
Carbon — P 42/m m c
Carbon — P 63 m c
Carbon — P 64 2 2
Carbon — P 6/m m m
Carbon — Pa-3
Carbon — P b a n :1
Carbon — P c c a
Carbon — Pnnm
Carbon — R -3 m :H
Carbon — R -3 m :R
Graphite
