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TiO 2 supported catalysts have been widely studied for the selective catalytic reduction (SCR) of NO x ; however, comprehensive understanding of synergistic interactions in multi-component SCR catalysts is still lacking. Herein, transition metal elements (V, Cr, Mn, Fe, Co, Ni, Cu, La, and Ce) were loaded onto TiO 2 nanoarrays via ion-exchange using protonated titanate precursors. Amongst these catalysts, Mn-doped catalysts outperform the others with satisfactory NO conversion and N 2 selectivity. Cu co-doping into the Mn-based catalysts promotes their low-temperature activity by improving reducibility, enhancing surface Mn 4+ species and chemisorbed labile oxygen, and elevating the adsorption capacity of NH 3 and NO x species. While Ce co-doping with Mn prohibits the surface adsorption and formation of NH 3 and NO x derived species, it boosts the N 2 selectivity at high temperatures. By combining Cu and Ce as doping elements in the Mn-based catalysts, both the low-temperature activity and the high-temperature N 2 selectivity are enhanced, and the Langmuir–Hinshelwood reaction mechanism was proved to dominate in the trimetallic Cu–Ce–5Mn/TiO 2 catalysts due to the low energy barrier.more » « less
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Lu, Xingxu ; Liu, Fangyuan ; Dang, Yanliu ; Li, Meilin ; Ruan, Mingyue ; Wu, Mudi ; Zhu, Chunxiang ; Mani, Tomoyasu ; Suib, Steven L. ; Gao, Pu-Xian ( , Applied Surface Science)
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Fan, Yingzheng ; Huang, Yuankai ; Linthicum, Will ; Liu, Fangyuan ; Beringhs, André O’Reilly ; Dang, Yanliu ; Xu, Zhiheng ; Chang, Shing-Yun ; Ling, Jing ; Huey, Bryan D. ; et al ( , ACS Sensors)