Allotropes of carbon

The structure of diamond
The structure of graphite
The structure of C-60

Allotropes of carbon

The element carbon occurs in different forms in nature with widely varying physical properties. Both diamond and
graphite are formed by carbon atoms, the difference lies in the manner in which the carbon atoms are bonded to one
another. In diamond, each carbon atom is bonded to four other carbon atoms forming a rigid three-dimensional

In graphite, each carbon atom is bonded to three other carbon atoms in the same plane giving a hexagonal array. One of these bonds is a double-bond, and thus the valency of carbon is satisfied.

Graphite structure is formed by the hexagonal arrays being placed in layers one above the other.

These two different structures result in diamond and graphite having very different physical properties even though their chemical properties are the same.

Diamond is the hardest substance known while graphite is smooth and slippery.

Graphite is also a very good conductor of electricity unlike other non-metals that you studied in the previous Chapter.

Diamonds can be synthesised by subjecting pure carbon to very high pressure and temperature. These synthetic diamonds are small but are otherwise indistinguishable from natural diamonds.

Fullerenes form another class of carbon allotropes. The first one to be identified was C-60 which has carbon atoms arranged in the shape of a football. Since this looked like the geodesic dome designed by the US architect .

.Buckminster Fuller, the molecule was named fullerene.

Leave a Comment

Your email address will not be published.