Difference between revisions of "Lattice:HCP"
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===Examples=== | ===Examples=== | ||
====Elemental==== | ====Elemental==== | ||
| − | : 4. [http://en.wikipedia.org/wiki/Beryllium Beryllium (Be)] (''a'' = 2.290 Å, ''c'' = 3.588, ''c''/''a'' = 1.567) | + | : 4. [http://en.wikipedia.org/wiki/Beryllium Beryllium (Be)] (''a'' = ''b'' = 2.290 Å, ''c'' = 3.588, ''c''/''a'' = 1.567) |
| − | : Cadmium (''c''/''a'' = 1.886) | + | : 27. [http://en.wikipedia.org/wiki/Cobalt Cobalt (Co)] (''a'' = ''b'' = 2.5071 Å, ''c'' = 4.0695, ''c''/''a'' = 1.623) |
| + | : 48. [http://en.wikipedia.org/wiki/Cadmium Cadmium (Cd)] (''a'' =''b'' = 2.9794 Å, ''c'' = 5.6186 Å, ''c''/''a'' = 1.886) | ||
====Atomic==== | ====Atomic==== | ||
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====Nano==== | ====Nano==== | ||
* TBD | * TBD | ||
| + | |||
==See Also== | ==See Also== | ||
* [http://en.wikipedia.org/wiki/Close-packing_of_equal_spheres Wikipedia: Close-packing of equal spheres] | * [http://en.wikipedia.org/wiki/Close-packing_of_equal_spheres Wikipedia: Close-packing of equal spheres] | ||
Revision as of 10:00, 14 October 2014
HCP (Hexagonal close-packed) is a hexagonal lattice. It is notable (along with FACC) because it achieves the densest possible packing of spheres. It thus arises naturally in many atomic crystals, as well as in colloidal crystals and nanoparticles superlattices.
Canonical HCP
In the canonical HCP, the ratio between the a and c distances is:
Examples
Elemental
- 4. Beryllium (Be) (a = b = 2.290 Å, c = 3.588, c/a = 1.567)
- 27. Cobalt (Co) (a = b = 2.5071 Å, c = 4.0695, c/a = 1.623)
- 48. Cadmium (Cd) (a =b = 2.9794 Å, c = 5.6186 Å, c/a = 1.886)
Atomic
- TBD
Nano
- TBD
