Selective Catalysis Reduction (SCR) is one of the best techniques for NOx removal efficiency at temperature of 250℃~300℃. However the temperature of waste gas for steal manufactory is always below 150℃ and the content of waste gas includes NOx and the precursor of dioxin such as 2-Chlorophenol. The waste gas has to be reheated before entering the SCR reactor, which increases the energy cost. In this study, catalysts which can reach 80% removal efficiencies for NO and 2-Chlorophenol at temperature as low as 150℃ are investigated. It was found that using the 10wt%Mn and 4wt%Ce doped on the TiO2 support, then calcined at 450℃, and using the 10wt%Mn and 5wt%Ce doped on lignite then calcined at 310℃ with nitrogen can both reach 80% NO and 2-Chlorophenol removal efficiencies. After doped the TiO2 or lignite with Mn and Ce metals, the metal oxides are amorphous and the particle sizes are below 5nm. However, the long-time tests of NO and 2-Chlorophenol removal efficiencies would decrease with time. On the other hand, the mesoporous material has high surface area and well order pore structure that might increase the catalyst activity after modifing with metals. In this study, AASA one-step method was used to synthesize Mn and Ce doped Mesoporous Silica Particles (MSP) by a spray dryer. It was demonstrated that the 2-Chlorophenol removal efficiency can reach 80% at 150℃ while the NO removal efficiency is only 20%. The long time tests showed that both NO and 2-Chlorophenol removal efficiencies decrease with time.