%0 Journal Article %@ 20462069 %A Irfan Khan, M. %A Azizli, K. %A Sufian, S. %A Man, Z. %A Khan, A.S. %D 2015 %F scholars:6380 %I Royal Society of Chemistry %J RSC Advances %K Activation energy; Chemical bonds; Drug delivery; Filtration; Iron; Leaching; Nanofluidics; Nanoparticles; Oil shale; Palm oil; Silica; Surface active agents, Chemical bondings; De agglomerations; Fourier transform infrared spectra; Model free kinetics; Polymeric surfactant; Silica composites; Silica nanoparticles; Thermodynamic studies, Iron oxides %N 27 %P 20788-20799 %R 10.1039/c4ra15922e %T Simultaneous preparation of nano silica and iron oxide from palm oil fuel ash and thermokinetics of template removal %U https://khub.utp.edu.my/scholars/6380/ %V 5 %X Nanomaterials have potential applications in the fields of catalysis, drug delivery, nanocomposites, and nanofluids. This study suggests a method for simultaneous preparation of nano silica and iron oxide from palm oil fuel ash (POFA). First, POFA was leached out with H2SO4 followed by alkali (NaOH) leaching. Basification (pH = 14) of the filtrate of the first leaching process produced iron oxide, while acidification of the alkali leachate produced nano silica. Addition of polymeric surfactant polyethylene glycol (PEG MW 20 000) resulted in deagglomeration of the silica nanoparticles. Silica nanoparticles with sizes in the range of 20-80 nm, surface area of 326 m2 g-1, and pore diameter of 8.2 nm were obtained. Thermokinetic and thermodynamic studies of template (PEG) removal from the silica matrix were performed using the Kissinger and Ozawa methods based on model-free kinetics. The activation energy of PEG decreased from 330 kJ mol-1 to 140 kJ mol-1 when it was used as a template; this result demonstrates the lack of chemical bonding between the surfactant and silica. The findings are supported by the Fourier-transform infrared spectra of the PEG-silica composites. This journal is © The Royal Society of Chemistry 2015. %Z cited By 29