FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4206148930> ?p ?o ?g. }

• W4206148930 endingPage "1097" @default.
• W4206148930 startingPage "1078" @default.
• W4206148930 abstract "V2O5 fuses with transition metals to create dozens of different metal vanadates, whose acidic/redox traits can be diverse yet optimized for selective catalytic NOX reduction (SCR) by changing the metals used or their metal:vanadium stoichiometry. However, no metal vanadate has been compared with its metal oxide composite analogue as an active phase for SCR, albeit a vanadate occasionally outperforms an oxide composite simulating a commercial catalyst (V2O5–WO3). Herein, Cu3V2O8 and CuO–VO2/V2O5 were rationally selected as model phases of metal vanadates and oxide composites and isolated using pH regulation of their synthetic mixture to ≤∼5 (pH1/pH5) and ∼11 (pH11), respectively. The pH1/pH5/pH11 samples were comparable with regard to morphological, textural, and compositional traits but not for crystallographic features. This thus provided the impetus to simulate the pH1/pH5/pH11 surfaces under a SO2-containing feed-gas stream, by which SOA2–/HSOA– functionalities (A = 3–4) were anchored on their (defective) Lewis acidic metals and/or labile oxygens (Oα). This could result in the formation of pH1-S/pH5-S/pH11-S, whose major surface species were Brönsted acidic bonds (SOA2–/HSOA–) and redox sites (Oα; mobile oxygen (OM); oxygen vacancy (OV)). pH1-S/pH5-S/pH11-S were similar in terms of NH3 binding energies and energy barriers in SCR yet escalated collision frequencies among the surface species involved in the sequence of pH11-S < pH5-S < pH1-S (via kinetic assessments), as was the case with the numbers of SOA2–/HSOA– functionalities of the catalysts (via temperature-resolved Raman spectroscopy). These were coupled to elevate the efficiency of acidic cycling on the order of pH11-S < pH5-S < pH1-S. Meanwhile, the amounts of Oα and OV (or OM) innate to pH1-S/pH5-S were smaller than and comparable to those of pH11-S, respectively. Nonetheless, pH1-S/pH5-S provided greater OM mobility than pH11-S, thereby proceeding better with redox cycling than pH11-S (via 18O-labeling O2-on/off runs). Furthermore, pH1-S/pH5-S outperformed pH11-S in SCR under diffusion-limited domains, while enhancing the resistance to H2O, ammonium (bi)sulfate poisons, or hydro-thermal aging over pH11-S by diversifying the selective N2 production pathway other than SCR." @default.
• W4206148930 created "2022-01-26" @default.
• W4206148930 creator A5044320760 @default.
• W4206148930 creator A5049793744 @default.
• W4206148930 creator A5074896786 @default.
• W4206148930 creator A5087337598 @default.
• W4206148930 date "2022-01-19" @default.
• W4206148930 modified "2023-09-25" @default.
• W4206148930 title "Contrasting Catalytic Functions of Metal Vanadates and Their Oxide Composite Analogues for NH₃-Assisted, Selective NO_X Transformation" @default.
• W4206148930 cites W1469230442 @default.
• W4206148930 cites W1707925874 @default.
• W4206148930 cites W1973553421 @default.
• W4206148930 cites W1980042423 @default.
• W4206148930 cites W1984073799 @default.
• W4206148930 cites W1984545398 @default.
• W4206148930 cites W1985435181 @default.
• W4206148930 cites W1988391696 @default.
• W4206148930 cites W1994949038 @default.
• W4206148930 cites W2001138508 @default.
• W4206148930 cites W2007024322 @default.
• W4206148930 cites W2013095507 @default.
• W4206148930 cites W2024710933 @default.
• W4206148930 cites W2032558730 @default.
• W4206148930 cites W2050876276 @default.
• W4206148930 cites W2053836150 @default.
• W4206148930 cites W2056079701 @default.
• W4206148930 cites W2057589434 @default.
• W4206148930 cites W2063681061 @default.
• W4206148930 cites W2069912023 @default.
• W4206148930 cites W2092574795 @default.
• W4206148930 cites W2094909639 @default.
• W4206148930 cites W2112996368 @default.
• W4206148930 cites W2119917333 @default.
• W4206148930 cites W2121915786 @default.
• W4206148930 cites W2169934955 @default.
• W4206148930 cites W2255049698 @default.
• W4206148930 cites W2286349930 @default.
• W4206148930 cites W2316556792 @default.
• W4206148930 cites W2318812678 @default.
• W4206148930 cites W2466017041 @default.
• W4206148930 cites W2483204252 @default.
• W4206148930 cites W2498308794 @default.
• W4206148930 cites W2568287386 @default.
• W4206148930 cites W2574688494 @default.
• W4206148930 cites W2600416767 @default.
• W4206148930 cites W2616520675 @default.
• W4206148930 cites W2617210835 @default.
• W4206148930 cites W2622539656 @default.
• W4206148930 cites W2729752800 @default.
• W4206148930 cites W2733557199 @default.
• W4206148930 cites W2744067002 @default.
• W4206148930 cites W2747485631 @default.
• W4206148930 cites W2749032744 @default.
• W4206148930 cites W2760983102 @default.
• W4206148930 cites W2791529545 @default.
• W4206148930 cites W2792232921 @default.
• W4206148930 cites W2795938000 @default.
• W4206148930 cites W2800546094 @default.
• W4206148930 cites W2803609990 @default.
• W4206148930 cites W2888560196 @default.
• W4206148930 cites W2902751403 @default.
• W4206148930 cites W2903380049 @default.
• W4206148930 cites W2910347332 @default.
• W4206148930 cites W2913372185 @default.
• W4206148930 cites W2935995705 @default.
• W4206148930 cites W2940380019 @default.
• W4206148930 cites W2940828526 @default.
• W4206148930 cites W2946236910 @default.
• W4206148930 cites W2946264763 @default.
• W4206148930 cites W2950611087 @default.
• W4206148930 cites W2969238790 @default.
• W4206148930 cites W2972052805 @default.
• W4206148930 cites W2998844323 @default.
• W4206148930 cites W2999536513 @default.
• W4206148930 cites W3007088218 @default.
• W4206148930 cites W3015172728 @default.
• W4206148930 cites W3018521126 @default.
• W4206148930 cites W3046165043 @default.
• W4206148930 cites W3049075564 @default.
• W4206148930 cites W3084502832 @default.
• W4206148930 cites W3088187635 @default.
• W4206148930 cites W3096503575 @default.
• W4206148930 cites W3105569267 @default.
• W4206148930 cites W3119720757 @default.
• W4206148930 cites W3130606932 @default.
• W4206148930 cites W3135757004 @default.
• W4206148930 cites W3142449123 @default.
• W4206148930 cites W3143983174 @default.
• W4206148930 cites W3172668877 @default.
• W4206148930 cites W3173736521 @default.
• W4206148930 cites W3188963815 @default.
• W4206148930 doi "https://doi.org/10.1021/acs.chemmater.1c03416" @default.
• W4206148930 hasPublicationYear "2022" @default.
• W4206148930 type Work @default.
• W4206148930 citedByCount "9" @default.
• W4206148930 countsByYear W42061489302022 @default.
• W4206148930 countsByYear W42061489302023 @default.
• W4206148930 crossrefType "journal-article" @default.

• next