From XRD pattern of silica gel, chi

From XRD pattern of silica gel, chitosan flakes
and CSC (Fig. not shown here), it was found that the
silica gel have characteristic peaks at 2θ = 11.6o
, 20.7o
,
25.6o
, 29.7o
, 31.7o
and 49.22o
and chitosan flakes have
characteristic peaks at 2θ = 10.1o
, 20.3o
, 26.0o
and 42.0o
.
These peaks correspond to a crystalline structure of
silica gel and chitosan respectively (Gandhi and
Meenakshi, 2012a; 2012b). XRD spectra of CSC are
more or less amorphous in nature with small crystalline
area between 2θ = 20-29o
. The decrease in the
crystallinity may be due to introduction of bulky
chitosan polymeric chain, which demonstrates that the
conjugation of silica and chitosan suppressed the
crystallization to some extent. It suggests that silica
and chitosan polymeric chain were mixed well at a
molecular level (Gandhi and Meenakshi, 2012a; 2012b).
The surface charged characteristics of CSC was
examined by measuring its zeta potential. Fig. 3 presents
the zeta potential of CSC as a function of the pH
solution values. The zeta potentials are positive for
pH below 6.2, which this can be attributed to the
protonation of amino groups in the CSC. Above pH
6.2, the zeta potential of CSC was negative. This may
due to the deprotonation of amino and silanol groups
in CSC. The point of zero zeta potential was obtained
at about pH 6.2 which is close to the pKa value of 6.3-
6.6 for amino groups in chitosan reported by other
(Zhang and Bai, 2003; Zulfikar et al., 2013).
N2
adsorption/desorption isotherm of CSC and its
pore size distribution is illustrated in Figs 4a and 4b.
As shown in Fig. 4a, CSC showed a type IV N2
adsorption isotherm shape with an evident hysteresis
loop at relative pressure range of 0.4-0.7, suggesting
the presence of mesopores in CSC (Tao et al., 2010;