Simultaneous Removal of NO.sub.x and Toluene on CuMnMgAl Layered Double Oxides

In this study, pure phase Cu.sub.2.5Mn.sub.0.5MgAl precursor was synthesized by layered double hydroxides (LDHs) precursor template method. Subsequently, Cu.sub.2.5Mn.sub.0.5MgAl-LDH is calcined at 500, 600 and 700 â to obtain the corresponding layered double oxides (LDO) catalysts for simultaneous removal of NO.sub.x and toluene. The results show that Cu.sub.2.5Mn.sub.0.5MgAl-500 exhibits the best catalytic performance in both NO.sub.x reduction and toluene oxidation reactions and the conversion of NO.sub.x and toluene can reach 85% and 88% at 210 â, respectively. XRD, SEM, BET, NH.sub.3-TPD, H.sub.2-TPR, XPS and in situ DRIFT were applied to characterize the prepared catalysts. The obtained Cu.sub.2.5Mn.sub.0.5MgAl-500 has abundant acid sites, excellent redox capacity and the highest concentration of surface Mn.sup.4+ and Cu.sup.+ species, which are considered to be the main factors determining its excellent catalytic performance. In addition, Cu.sub.2.5Mn.sub.0.5MgAl-500 shows superior durability and good tolerance to H.sub.2O/SO.sub.2.