Citation:Wimalasiri, A. V. K., Fernando, M. S., Williams, G. R., Dissanayake, D. P., de Silva, K. N., & de Silva, R. M. (2021). Microwave assisted accelerated fluoride adsorption by porous nanohydroxyapatite. Materials Chemistry and Physics, 257, 123712.
Date:2021-01-01
Abstract:
Fluoride pollution of water is a matter of concern in many countries due to its association with chronic kidney
failure. Therefore, it is important to develop fast and efficient methods for fluoride removal from drinking water
using environmentally friendly materials. In this article, the synthesis, characterization and microwave assisted
accelerated fluoride removal by porous nanohydroxyapatite (PHAP) are reported. The PHAP samples were
synthesized using polyvinyl pyrrolidone and sodium dodecyl sulphate micellar system as the template. The
prepared nanohydroxyapatite was characterized using TEM, SEM, FT-IR, TGA, XRD and BET. Investigation of the
morphology of microcrystals using TEM showed the presence of spherical particles of 20–35 nm size and highly
porous rod-shaped crystals with the aspect ratio of 2:13. The adsorption of F− ions using PHAP was carried out
under the influence of microwave radiations using concentrations comparable to existing F− levels in natural
water. The equilibrium is reached within 80 s and this is the fastest saturation time recorded for any existing
material. The kinetic experiments showed that the fluoride adsorption is an activated second order process. The
equilibrium fluoride adsorption capacity of PHAP was found to be 9.19 mg g− 1 at pH 6.5 for 80 s and this was
proven to be a potential material to remove F− ions rapidly from drinking water.