4 · BONDING BETWEEN ATOMSIn the unit cell, each sodium ion is surrounded by six chloride ions and each chlo-
ride ion is surrounded by six sodium ions. The ions are held together by the attraction
of their opposite charges (electrostatic forces). These forces are very strong. X-ray
diffractionallows us to ‘see’ ions in an ionic compound, as described in Box 4.2.
All ionic substances consist of ions arranged in a giant lattice. Different ionic
structures have their ions arranged in different patterns. The sodium chloride struc-
ture is one of the simplest arrangements.50
Cubic salt crystals. An orderly
arrangement of Naand Cl
ions gives rise to this shape.BOX 4.2
Electron density map for sodium chloride
How do the ideas of Kossel and Lewis
fit in with the modern view of the
arrangement of electrons in an atom?
The modern theory teaches that
electrons have a wave-like nature. In
regions where there is a high probability
of finding the electron, there is a high
concentration of electrical charge and
we say that theelectron densityis
large. By similar reasoning, electron
density is small where there is a low
probability of finding the electron.
Through using a technique known as X-
ray diffraction, it is possible to obtainelectron density contour maps of ionic
substances. Figure 4.3 shows such a
map for sodium chloride – each line
connects points with the same electron
density, and the nuclei of each atom are
represented by dots at the centre of
each ion. The outermost contours have
a squared shape because the ions are
attracted to ions of opposite charge
around them. Notice that there is a
space between the nuclei where there
are no contours; this is a characteristic
feature of the electron density map for
an ionic substance.Cl–Na+Fig. 4.3Contours to show the electron
density distribution around sodium and
chloride ions.Fig. 4.2The unit cell of
sodium chloride: (a) ball-and-
stick model; (b) space-filling
model.
(a)(b)Arrangement of ions in sodium chloride
In a sodium chloride crystal, the Na+and Clions are arranged in a giant lattice
structure. The ‘building brick’ of this structure is a unit cellis as shown in Fig 4.2.
The larger spheres represent Clions, whereas the smaller spheres represent Na+
ions. A crystal of sodium chloride consists of many billions of these unit cells stacked
together in the lattice.