%0 Journal Article %@ 01968904 %A Ayodele, O.B. %D 2016 %F scholars:6781 %I Elsevier Ltd %J Energy Conversion and Management %K Catalyst supports; Catalysts; Exponential functions; Fourier transform infrared spectroscopy; Hydrogen peroxide; Ligands; Methane; Methanol; Oxalic acid; Oxidation; Peroxides; Temperature; X ray diffraction, Energy dispersive x-ray; Fenton process; Fenton-like process; Ferrioxalate; Functionalizations; Methane conversions; Methoxyl radical; Operating condition, X ray photoelectron spectroscopy %P 537-547 %R 10.1016/j.enconman.2016.08.016 %T Structure and reactivity of ZSM-5 supported oxalate ligand functionalized nano-Fe catalyst for low temperature direct methane conversion to methanol %U https://khub.utp.edu.my/scholars/6781/ %V 126 %X The feasibility of low temperature direct methane conversion to methanol (DMCM) over ferrioxalate supported on ZSM-5 catalyst (FeOx/ZSM-5) was investigated in this study. FeOx/ZSM-5 was synthesized via functionalization of Fe with oxalate ligand and employed to generate hydroxyl radicals (HO) from hydrogen peroxide (HP) in a Fenton-like process to activate the methane Formula presented bond scission to form methoxyl radical which in turn reacted with water to form methanol. The Fourier transformed infrared (FTIR) spectroscopy result showed the presence of νa(Formula presented) from the oxalate anion (C2O42�) at 1655 cm�1 and ν3 asymmetry stretch from CO32� at 1343 cm�1. The presence of Fe in the catalyst was elucidated by the energy dispersive X-ray, X-ray diffraction patterns and X-ray photoelectron spectroscopy (XPS). Furthermore, the XPS results showed that Fe2+/Fe3+ ratio in FeOx/ZSM-5 was 4.29. The effect of operating conditions showed that while FeOx/ZSM-5 loading and reaction time followed a simple power function (y = a · xn), the effect of HP dosage followed exponential function (y = a · ex), which signifies that the latter is more significant. The used-FeOx/ZSM-5 characterization result showed that virtually all the Fe2+ have been oxidized to Fe3+ after 15 min of reaction time. This novel result is promising for further research towards commercial low temperature DMCM. © 2016 Elsevier Ltd %Z cited By 25