1.8  Other Single Crystal Surfaces

Although some of the more common metallic surface structures have been discussed in previous sections (1.2-1.4), there are many other types of single crystal surface which may be prepared and studied. These include

These will not be covered in any depth, but a few illustrative examples are given below to give you a flavour of the additional complexity involved when considering such surfaces.

High Index Surfaces of Metals

High index surfaces are those for which one or more of the Miller Indices are relatively large numbers. The most commonly studied surfaces of this type are vicinal surfaces which are cut at a relatively small angle to one of the low index surfaces. The ideal surfaces can then be considered to consist of terraces which have an atomic arrangement identical with the corresponding low index surface, separated by monatomic steps (steps which are a single atom high).

Perspective view of the fcc(775) surface

As seen above, the ideal fcc(775) surface has a regular array of such steps and these steps are both straight and parallel to one another.

   What is the coordination number of a step atom on this surface ?

By contrast a surface for which all the Miller indices differ must not only exhibit steps but must also contain kinks in the steps. An example of such a surface is the fcc(10.8.7) surface - the ideal geometry of which is shown below.

Perspective view of the fcc(10.8.7) surface

   What is the lowest coordination number exhibited by any of the atoms on this surface ?

Real vicinal surfaces do not, of course, exhibit the completely regular array of steps and kinks illustrated for the ideal surface structures, but they do exhibit this type of step and terrace morphology. The special adsorption sites available adjacent to the steps are widely recognised to have markedly different characteristics to those available on the terraces and may thus have an important role in certain types of catalytic reaction.

For further information on the structure of metal surfaces you should take a look at :

Metal Surfaces.
 

An Atlas of Models of Crystal Surfaces , by J.F. Nicholas (Gordon & Breach, 1965)

Surfaces of fcc, bcc, and hcp metals and the diamond and graphite structures.

The Surface Explorer (based at the Fritz Haber Institute) - an on-line interactive surface structure utility.

Single Crystal Surfaces of Compounds

The ideal surface structures of the low index planes of compound materials can be easily deduced from the bulk structures in exactly the same way as can be done for the basic metal structures. For example, the NaCl(100) surface that would be expected from the bulk structure is shown below :

Perspective view of the NaCl(100) surface

In addition to the relaxation and reconstruction exhibited by elemental surfaces, the surfaces of compounds may also show deviations from the bulk stoichiometry due to surface localised reactions (e.g. surface reduction) and/or surface segregation of one or more components of the material.

For further information on the surface structure of compound materials you should take a look at :

Oxide Surfaces

The Surface Science of Metal Oxides , by V.E. Henrich and P.A. Cox (CUP, 1994)

Surfaces of compounds with the sodium chloride (NaCl), caesium chloride (CsCl) and cubic zincblende (ZnS) structure.

The Surface Explorer (based at the Fritz Haber Institute) - an on-line interactive surface structure utility.

Surfaces of compound semiconductors, alloys and oxides.

Gallery of Pictures from the NIST Surface Structure Database (courtesy of Prof. K. Hermann).

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