Dyes are widely used to impart colo

Dyes are widely used to impart color to various substrates such
as: textile, leather, paper, hair, food, drugs, and cosmetics (Zhang
et al., 1999). These colored chemical compounds can remain into
surface waters and cause harmful effects to human health and
ecosystem (Chen et al., 2003). For these reasons, it is necessary to
treat the colored wastewaters using proper treatment processes.
Some of these processes proposed by researchers are: precipitation
(Machado et al., 2011), electrochemical (Pelaez-Cid et al., 2013),
chemical coagulation, chemical oxidations (Ayad et al., 2012), ion
exchange (Kim et al., 2012), photo-degradation (Arica et al., 2004;
Wong et al., 2004) and adsorption (Anirudhan and Rauf, 2013;
Gupta and Suhas, 2009; Chiou and Chuang, 2006; Forgacs et al.,
2004; Zhang and Chuang, 2001). Adsorption technique is an
appropriate physical method for the removal of dyes from the
colored wastewaters due to its low initial cost, simple operation,
insensitivity to toxic pollutants, etc. (Gomez et al., 2014). In this
regard, a suitable adsorbent can play an important role in treatment
of the wastewaters. In recent years, a wide range of raw and synthetic
adsorbents have been considered by the researchers.
Nevertheless, it is essential to introduce new adsorbents with high
performance and low-cost (Leechart et al., 2009). One of these
adsorbents with high adsorption capacity is dendritic adsorbent,
which contains multiple adsorption sites.
For the first time in 1982, concept of the application of cascade
branched structures as ideal molecular containers has been discussed
by Maciejewski (Maciejewski, 1982). This concept developed
by constructing treelike structures with spherical threedimensional
morphology, reactive end groups and rooms between
their branches (or cavities). They as host molecules could
trap guest molecules by their cavities. Nowadays, these structures
are recognized as dendrimers (Frechet and Tomalia, 2011). Due to
their low toxicity and immunogenicity, the dendrimers have been
considered as interesting candidates for application in guest-host
chemistry (gene transport, drug delivery systems, dye adsorption,
catalysts …) (Bosman et al., 1999; Choi et al., 2006). Among all
known dendrimers classes, poly(propylene imine) dendrimers are
the oldest (Frechet and Tomalia, 2011). They consist of three distinct
domains: a diaminobutane (DAB) core, interior propylene imine
branches that emanate from the core and terminal amino groups,
which are generally located in the exterior of the macromolecule
(Newkome et al., 2001; Zeng and Zimmerman, 1997). The number
of branching points between the periphery and central core corresponds
with generation of the dendrimer. As the generation increases,
the number of amino groups, the size and the molecular
weight of the dendrimers increase (Boas et al., 2006).
In earlier studies, researchers demonstrated that guest
molecules can be physically imprisoned by the rooms between
branches of the dendrimers, so-called dendritic boxes or cavities
(Newkome et al., 2001; Bosman et al., 1999; Jansen et al., 1994). On
the basis of these researches, it is found that some properties of
guest and host molecules can strongly affect the guest-host interactions.
According to these literature, the polarity of environments,
solution concentration and the maximum capacity of
cavities to absorb guest molecules have been discussed
(Burkinshaw et al., 2000; Baars et al., 1997; Jansen and Meijer,
1995), and other important parameters such as initial dye concentration,
pH, salt and charge of molecules in solutions have not
been studied yet. In a research, Arami and co-workers (Arami et al.,
2011) described the removal of anionic dyes (Direct and Acid dyes)
from colored wastewater by G2-PPI dendrimer aqueous solution.
They investigated the effects of operational parameters (dendrimer
concentration, dye concentration, salt and pH) on dye removal. In
this work, the important parameters such as kinetic of the
adsorption process, the generation of dendrimer, charge, size and
weight of the dye molecule have not been evaluated yet. Accordingly,
in the present work, guest-host interactions between the
grafted cotton fabrics (as host) and dye molecules (as guest) were
studied. In addition, the most effective parameters (charge and size
of the dye molecule, initial dye concentration, pH and salt) on the
dye adsorption of the grafted fabric have been investigated. Finally,
the equilibrium and kinetic data of the adsorption process has been
evaluated and compared.