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W2232425462 abstract "Abstract To mitigate the threat of NO x on the environment, MnO x nanowires were fabricated on activated semi-coke (MnO x NW/ASC) for the first time. The prepared MnO x NW/ASC was used for the low temperature selective catalytic reduction (SCR) of NO x with NH 3 , which achieved an efficiency of over 90% with a low loading content of 1.64 wt% at 150–210 °C. This high performance could be ascribed to synergistic effect between MnO x and ASC. Specifically, the large specific surface area and reducible property of ASC facilitated the dispersion of MnO x and the formation of Mn 3+ , respectively. Meanwhile, MnO x nanowires provided more redox sites and lattice oxygen species due to the coexistence of Mn 3+ and Mn 4+ , which accelerated the catalytic cycle. The in situ DRIFTS studies revealed that ASC was conducive to the adsorption of NO and NH 3 . Most importantly, the existence of Mn 3+ favored the formation of amide species and the subsequent reduction reaction. Furthermore, the Langmuir–Hinshelwood (L–H) route between coordinated NH 3 and bidentate nitrate was predominating in the SCR process and responsible for the high catalytic activity at low temperature." @default.
W2232425462 created "2016-06-24" @default.
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W2232425462 date "2016-03-01" @default.
W2232425462 modified "2023-10-11" @default.
W2232425462 title "In situ DRIFTS studies on MnO nanowires supported by activated semi-coke for low temperature selective catalytic reduction of NO with NH3" @default.
W2232425462 cites W1900632717 @default.
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W2232425462 cites W1976133135 @default.
W2232425462 cites W1976378058 @default.
W2232425462 cites W1980953390 @default.
W2232425462 cites W1990160658 @default.
W2232425462 cites W1992972155 @default.
W2232425462 cites W1993893137 @default.
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W2232425462 cites W1998075790 @default.
W2232425462 cites W1998787178 @default.
W2232425462 cites W1999766585 @default.
W2232425462 cites W2009962608 @default.
W2232425462 cites W2011201743 @default.
W2232425462 cites W2012100038 @default.
W2232425462 cites W2018371250 @default.
W2232425462 cites W2020687561 @default.
W2232425462 cites W2021826007 @default.
W2232425462 cites W2023709240 @default.
W2232425462 cites W2026583190 @default.
W2232425462 cites W2033624689 @default.
W2232425462 cites W2039088011 @default.
W2232425462 cites W2042548742 @default.
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W2232425462 cites W2047664799 @default.
W2232425462 cites W2054569234 @default.
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W2232425462 cites W2056079701 @default.
W2232425462 cites W2059613693 @default.
W2232425462 cites W2061236935 @default.
W2232425462 cites W2062021825 @default.
W2232425462 cites W2067796413 @default.
W2232425462 cites W2069912023 @default.
W2232425462 cites W2070738109 @default.
W2232425462 cites W2072033539 @default.
W2232425462 cites W2072242817 @default.
W2232425462 cites W2074183084 @default.
W2232425462 cites W2079792513 @default.
W2232425462 cites W2085783450 @default.
W2232425462 cites W2096035924 @default.
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W2232425462 cites W2114666958 @default.
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W2232425462 cites W2161708054 @default.
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W2232425462 cites W2316765721 @default.
W2232425462 cites W2321771249 @default.
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W2232425462 doi "https://doi.org/10.1016/j.apsusc.2016.01.052" @default.
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