2022
DOI: 10.1039/d1cy02214h
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Theoretical design of transition metal-doped TiO2 for the selective catalytic reduction of NO with NH3 by DFT calculations

Abstract: Many transition metal oxides supported on TiO2 have been studied for selective catalytic reduction (SCR) of NO with NH3. However, the trade-off exists between the low-temperature activity and N2 selectivity....

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Cited by 8 publications
(5 citation statements)
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“…230 Zheng et al studied NH 3 adsorption and dissociation on a series of metal-doped TiO 2 (101) surfaces. 228 Compared to that on the clean surface, the adsorption is stronger on the V-, Cr-, Mn-, Mo-TiO 2 , and weaker on the Fe-, Co-, and Ce-TiO 2 . The dissociation barrier on metal-doped TiO 2 is relatively high, except for Co-TiO 2 , which has facile NH 3 dissociation.…”
Section: Adsorption Of Nh 3 N 2 and No Xmentioning
confidence: 89%
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“…230 Zheng et al studied NH 3 adsorption and dissociation on a series of metal-doped TiO 2 (101) surfaces. 228 Compared to that on the clean surface, the adsorption is stronger on the V-, Cr-, Mn-, Mo-TiO 2 , and weaker on the Fe-, Co-, and Ce-TiO 2 . The dissociation barrier on metal-doped TiO 2 is relatively high, except for Co-TiO 2 , which has facile NH 3 dissociation.…”
Section: Adsorption Of Nh 3 N 2 and No Xmentioning
confidence: 89%
“…Upon Mn doping on TiO 2 (101) surface, NH 3 adsorbs on the Mn site, and the dissociation becomes less endothermic with a much lower barrier 230 . Zheng et al studied NH 3 adsorption and dissociation on a series of metal‐doped TiO 2 (101) surfaces 228 . Compared to that on the clean surface, the adsorption is stronger on the V‐, Cr‐, Mn‐, Mo‐TiO 2 , and weaker on the Fe‐, Co‐, and Ce‐TiO 2 .…”
Section: The Adsorption Activation and Reaction Of Small Inorganic Mo...mentioning
confidence: 99%
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“…Computational modeling has provided us with a powerful tool, especially in active site identification, intermediate species determination, and reaction path construction [19]. Currently, one of the crucial goals in computational catalysis is to establish and understand structure-activity relationships between the fundamental properties of catalytic materials and their catalytic performance [20], as this understanding will lay the theoretical foundation for achieving a more efficient and rational design of catalysts [21]. Therefore, establishing linear scaling relationships between catalytic performance (e.g., activity, selectivity, and stability) and the physical or chemical properties of the catalytic system (e.g., energy changes, geometric structures, and electronic structures) as descriptors is crucial [22].…”
Section: Introductionmentioning
confidence: 99%