Abstract:
In this study, MMT-La-Alginate (MMT-La-ALG) composite was synthesized, characterized,
and analyzed for its fluoride adsorption capacity and antibacterial properties. The composite
was synthesized using MMT, lanthanum nitrate, and sodium alginate, and characterized using
SEM-EDX, TGA, and FT-IR. Investigation of the morphology of the composite using SEMEDX mapping showed the uniform distribution of Lanthanum (III) throughout the surface of
composite. The TGA analysis of the composite showed the presence of a 1:0.6 (w/w) ratio of
alginate and inorganic materials (MMT and lanthanum based materials) in the composite. Also
the blue shift appeared at the region 1644 cm-1
(stretching vibrations of O-C-O) of FT-IR
spectrum of MMT-La-ALG evidence the formation of La alginate complexes. The prepared
MMT-La-ALG composite was used for the removal of fluoride ions from drinking water. The
adsorption isothermal profile of the fluoride was well fitted with the Langmuir adsorption
isothermal model and it indicates that the adsorption process at equilibrium is on a
homogeneous surface and binding sites of MMT-La-ALG for fluoride ions are energetically
equivalent. In this study, it was found that the equilibrium fluoride adsorption capacity on the
composite was 40 mg/g. Furthermore, kinetic studies carried out showed that the fluoride
adsorption on to MMT-La-ALG follows pseudo-second-order kinetics. Further, the
antibacterial performance of MMT-La-ALG against E. coli and S. aureus was also studied by
monitoring the bacterial inactivation. Results showed significant anti-bacterial property of
MMT-La-ALG, indicating its potential in applying water disinfection protocols. Consequently,
it can be concluded that the prepared MMT-La-ALG is a versatile adsorbent and therefore
promising material to be used in water purifications.
