Название | Solid State Chemistry and its Applications |
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Автор произведения | Anthony R. West |
Жанр | Химия |
Серия | |
Издательство | Химия |
Год выпуска | 0 |
isbn | 9781118695579 |
Other symmetry elements are generated automatically by a combination of this 2‐fold rotation axis and the C‐centring. Thus, another 2‐fold rotation axis, e, parallel to b, is created which cuts the x axis at ½ and the z axis at 0; positions 1 and 3 are related by this 2‐fold axis, as are positions 3′ and 1‴, positions 4 and 2, etc.
We also find that 2‐fold screw axes have been created automatically in this space group. A 2‐fold screw axis, symbol 21, involves a rotation component of 180o and a translation by ½ in the direction of the screw axis. Two 21 screw axes, f and g, are shown which are parallel to b, cut the x axis at
Space group C2 has four equivalent positions which are generated by a combination of the C‐centring and a 2‐fold rotation axis. Starting from position 1, the effect of C‐centring is to create position 2 which is displaced by (½, ½, 0) from position 1. The effect of the 2‐fold rotation axis, d is to rotate position 1 about the b edge by 180° and create position 3′. As position 1 has a positive z coordinate, 3′ must have a corresponding negative z value. The position equivalent to 3′ that lies inside the unit cell is found by translating to adjacent unit cells in both x and z directions to arrive at a position that is above 3 and is inside the unit cell, i.e. 3 has coordinates 1 − x, y, −z and therefore the equivalent position inside the unit cell is at
Figure 1.62 Monoclinic space group C2 (No 5); coordinates of equivalent positions 4(c): x, y, z;
The same rotation axis d creates position 4′ from position 2, whose equivalent position inside the unit cell is above position 4 with coordinates ½ – x, ½ + y,
The coordinates of the four positions that lie inside the unit cell can be grouped into two sets: x, y, z;
The general positions in space group C2 are 4‐fold but if they lie on the 2‐fold rotation axes, their number is reduced to two and they become special positions. Thus, if x = z = 0, the two positions have coordinates 0, y, 0 and
1.18.5.3 Monoclinic C2/m
This space group, shown in Fig. 1.63, is also C‐centred and has, as its principal symmetry elements, a mirror plane perpendicular (/) to a 2‐fold axis. The 2‐fold axis is parallel to b, by convention, and therefore the mirror plane is the xz plane. Two mirror planes are present in the cell; they intersect b at 0 and ½ and are shown as thick vertical lines in Fig. 1.63. As in the space group C2 , there are two 2‐fold rotation axes, parallel to b and intersecting a at 0 and ½, and two 21 screw axes parallel to b and intersecting a at
Figure 1.63 Monoclinic space group C2/m (No 12). Coordinates of general equivalent positions 8(j): x, y, z; x,