pyrrole unit is at 1542 cm
1. The p

pyrrole unit is at 1542 cm

1. The peaks are at 1307 cm

1
(CAN stretching vibration), 1164 cm

1 (CAH in-plane
deformation), 1044 cm

1 (NAH in-plane deformation) and
894 cm

1 (CAH out-of-plane deformation) [14–16]. These
peaks can also be seen in the spectra of PPy/RHA nanocomposites.
As shown in Fig. 4, all bands in nanocomposites are
slightly shifted, which indicates that there is some interaction
between PPy and RHA.
3.3. Mechanism of removal
Polypyrrole has a reactive NAH group in a polymer chain
flanked on either side by a phenylene ring, imparting a very
high chemical flexibility. It is known that the main adsorption
sites for anions and heavy metal ions are the nitrogen atoms in
the macromolecular chains because the nitrogen atom has a
lone pair of electrons that can efficiently bind a metal ions to
form a metal complex. Anions and heavy metals adsorption
could be responsible for a complexation between anions and
heavy metal ions and the nitrogen atoms of the AN‚CA
groups through sharing their lone pair of electrons could act
as adsorption or ion exchange. Processes such as anion
exchange, chemical oxidation, and chelation seem to be possible
reactions which are occurred during anions and heavy
metal ions removal.
3.4. Removal experiments
The analyzed result of textile wastewater and the effects of
PPy/RHA in the removal of heavy metals, anions and COD
are shown in Table 3. As can be seen in Table 3, the removal
of anions, heavy metals and COD from the wastewater is
dependent on the ability of surface absorption. The results
indicate that PPy/RHA nanocomposites are able to remove
anions and heavy metals from textile waste water.
Experiments were done using PPy/RHA during 30 min with
5 min intervals. As can be seen (Table 4) increasing the time
(5–20 min) removal efficiency increased but, after 20 min the
efficiency did not increase significantly. In Table 5, the removal
efficiency of wastewater is shown using PPy and RHA. As can
be seen in Table 5, RHA has low efficiency in the removal of
anions and COD, but its performance to remove metals is
considerable. PPy has noticeable efficiency in the removal of
metals, anions and COD. However, in all experiments, the
removal efficiency of PPy is lower than composites.
Therefore it can be concluded that RHA in the composites
does not play significant role in the anions and COD removal
but the role of RHA in the removal of the metals is considerable,
and it causes an increase in the removal efficiency of the
composites. The results of application of RHA and PPy, RHA