中文摘要：

采用聚合羟基复合阳离子合成交联蒙脱土Al-Ce-PILC，并分别用NH4NO3和（NH4）2SO4处理后，将其作为载体，采用浸渍法制备了应用于C3H6选择性催化还原NO反应的铜基交联黏土催化剂Cu／Al-Ce-PILC．用Py-IR，IR和DSC等表征技术研究了不同处理方式对Al-Ce-PILC的结构、酸性和催化剂活性的影响．结果表明，未经处理的Al-Ce-PILC中同时存在L酸和B酸，以L酸为主，Cu／Al-Ce-PILC上NO的最大转化率仅为18．5％；用NH4NO3处理提高了L酸量，NO转化率降低；而用（NH4）2SO4处理改变了Al-Ce-PILC的酸性结构，增大了B酸量，并形成了超强酸中心，催化剂上NO转化率显著提高，在350℃时达最大值50．2％．B酸对于Cu／Al-Ce-PILC上NO的还原是必要的，它有利于C3H6吸附并适度氧化为活性中间物种，其酸量和酸强度的增加是催化剂活性改善的主要原因．

英文摘要：

New pillared clay catalysts were studied for NO removal by hydrocarbon in the presence of oxygen. The purpose of this work is to study the role of support acidity in the selective catalytic reduction （SCR） of NO by propylene. In this paper, montmorillonite was pillared by multi-oligomeric hydroxyl cation to synthesize Al-Ce-PILC and then treated by NH4NO3 and（ NH4）2SO4 respectively. Cu-based pillared clay catalysts（Cu/ Al-Ce-PILC） were prepared by impregnation and applied to C3H6-SCR of NO. The influence of treatment methods on the structure and acidity of Al-Ce-PILC and the performance of Cu/Al-Ce-PILC were characterized by Py-IR, IR and DSC. The results show that, both Lewis and Broensted acid sites exist on Al-Ce-PILC, with Lewis acid sites as the main ones, and the maximum NO conversion of Cu/Al-Ce-PILC reaches only 18.5%. As a result of the NH4NO3 treatment, the Lewis acid sites increase, while NO conversion decreases. As for Al- Ce-PILC treated by（ NH4）2SO4, more Broensted acid sites are identified and a superacid structure is formed, and the NO conversion over Cu/Al-Ce-PILC catalyst increases remarkably to 50. 2% at 350 ℃, which is associated with the change of the support acidity. It is concluded that Broensted acid sites are necessary for the SCR reaction of NO because they promote the absorption of C3H6 to form proper intermediates that are active for the reduction of NO to N2. The increase of Broensted acid sites plays a vital role in the improvement of catalytic performance.