Transition metals supported on mesoporous ZrO 2 for the catalytic control of indoor CO and PM emissions

Abstract

Mesoporous ZrO 2 support has been prepared by using a low cost natural biopolymer chitosan as template, and different transition metals from the first row (Fe, Co, Ni, Cu and Mn) were impregnated on the synthesized support. The synthesized catalysts have been characterized by XRD, BET-SA, SEM, TEM, O 2-TPD and TG analysis to study the material details as well as to understand the catalytic mechanism. The activity of these catalysts has been investigated for CO and PM oxidation. Incorporation of transition metals improved the activity for both CO and PM oxidation. It has been observed that Co–ZrO 2 is the most active catalyst for studied reactions while, Ni based catalysts show the lowest activity for both the reactions. The transition metal supported catalysts follow the activity sequence Co–ZrO 2 > Mn–ZrO 2 > Cu–ZrO 2 > Fe–ZrO 2 > Ni–ZrO 2. The effect of CO 2, SO 2 and H 2O on CO oxidation activity was also investigated, and despite partial deactivation, the catalysts show good CO oxidation activity. The characterization of the materials by O 2-TPD studies explains the better catalytic performance for the Co–ZrO 2, Mn–ZrO 2 and Cu–ZrO 2 catalysts, as compared to Fe–ZrO 2 and Ni–ZrO 2. Such mesoporous zirconia with reasonably good surface area and without ordered structure could be useful for both CO and PM oxidation reactions.