A simple strategy of Cu modification was proposed to broaden the operation temperature window for NbCe catalyst.The best catalyst Cu0.010/NbiCe3 presented over 90％NO conversion in a wide temperature range of 200-400℃and exhibited an excellent H2O or/and SO2 resistance at 275℃.To understand the promotional mechanism of Cu modification,the correlation among the"activity-structure-property"were tried to establish systematically.Cu species highly dispersed on NbCe catalyst to serve as the active component.The strong interaction among Cu,Nb and Ce promoted the emergence of NbO4 and induced more Br?nsted acid sites.And Cu modification obviously enhanced the redox behavior of the NbCe cat-alyst.Besides,EPR probed the Cu species exited in the form of monomeric and dimeric Cu2+,the isolated Cu2+acted as catalytic active sites to promote the reaction:Cu2+-NO3+NO(g)→ Cu2+-NO2+NO2(g).Then the generated NO2 would accelerate the fast-SCR reaction process and thus facilitated the low-temperature deNOx efficiency.Moreover,surface nitrates became unstable and easy to decompose after Cu modification,thus providing additional adsorption and activation sites for NH3,and ensuring the improvement of catalytic activity at high temperature.Since the NH3-SCR reaction followed by E-R reac-tion pathway efficaciously over Cuo.oio/Nb1Ce3 catalyst,the excellent H2O and SO2 resistance was as expected.

Dongqi An;Yuyao Yang;Weixin Zou;Yandi Cai;Qing Tong;Jingfang Sun;Lin Dong

Key Laboratory of Mesoscopic Chemistry of MOE,School of Chemistry and Chemical Engineering and Jiangsu Key Laboratory of Vehicle Emissions Control,Nanjing University,Nanjing 210093,China;Center for Nanochemistry,College of Chemistry and Molecular Engineering,Peking University,Beijing 100871,China;Jiangsu Key Laboratory of Vehicle Emissions Control,School of Environment,Nanjing University,Nanjing 210093,China;Jiangsu Key Laboratory of Vehicle Emissions Control,Center of Modern Analysis,Nanjing University,Nanjing 210093,China;Key Laboratory of Mesoscopic Chemistry of MOE,School of Chemistry and Chemical Engineering and Jiangsu Key Laboratory of Vehicle Emissions Control,School of Environment,Center of Modern Analysis,Nanjing University,Nanjing 210093,China

中国化学工程学报（英文版）

[1]Dongqi An;Yuyao Yang;Weixin Zou;Yandi Cai;Qing Tong;Jingfang Sun;Lin Dong-.Insight into the promotional mechanism of Cu modification towards wide-temperature NH3-SCR performance of NbCe catalyst)[J].中国化学工程学报（英文版）,2022(10):301-309

NbCe,NbiCe3,NbO4,exited,Cu2+acted,NO3+NO,NO2+NO2,Cuo,oio,Nb1Ce3

Insight,into,promotional,mechanism,modification,towards,wide,temperature,NH3,SCR,performance,catalyst,simple,strategy,was,proposed,broaden,operation,window,best,Cu0,presented,conversion,range,exhibited,excellent,H2O,SO2,resistance,To,understand,correlation,among,activity,structure,property,were,tried,establish,systematically,species,highly,dispersed,serve,active,component,strong,interaction,promoted,emergence,induced,more,Br,nsted,acid,sites,And,obviously,enhanced,redox,behavior,Besides,EPR,probed,monomeric,dimeric,isolated,catalytic,reaction,Then,generated,would,accelerate,fast,process,thus,facilitated,deNOx,efficiency,Moreover,surface,nitrates,became,unstable,easy,decompose,after,providing,additional,adsorption,activation,ensuring,improvement,Since,followed,by,pathway,efficaciously,expected

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