2021
DOI: 10.1002/cctc.202001784
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Single Ir Atoms Anchored on Ordered Mesoporous WO3 Are Highly Efficient for the Selective Catalytic Reduction of NO with CO under Oxygen‐rich Conditions

Abstract: Under oxygen‐rich conditions, achieving a selective and efficient reduction of NO by CO is always challenging. Here, we report the synthesis of the catalyst consisting of single Ir atoms anchored on mesoporous WO3 (denoted as Ir1/m‐WO3) using a facile template method followed by wet impregnation. X‐ray diffraction and transmission electron microscope studies indicated that the Ir atoms were distributed uniformly on the internal surface of m‐WO3. When tested for the reduction of NO by CO, the Ir1/m‐WO3 catalyst… Show more

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Cited by 26 publications
(18 citation statements)
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References 50 publications
(45 reference statements)
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“…The same mistake assigning CO­(g) branches to adsorbed CO species can be found in another contribution dealing with Ir iso /WO 3 . The P-branch band (located at ca.…”
Section: Miscellaneous Ir-based Work and Potential Flawsmentioning
confidence: 53%
“…The same mistake assigning CO­(g) branches to adsorbed CO species can be found in another contribution dealing with Ir iso /WO 3 . The P-branch band (located at ca.…”
Section: Miscellaneous Ir-based Work and Potential Flawsmentioning
confidence: 53%
“…In recent decades, with the dramatic increase of the number of automobiles, the problem of automobile exhaust pollution has become more and more serious. Nitrogen oxides (NO x ), as one of the main pollutants of automotive exhaust, not only cause environmental problems such as photochemical smog and ozone layer destruction but also have adverse effects on human health. Therefore, catalytic removal of NO x (NO usually accounts for about 90%) is a method of great significance to control air pollution. Currently, selective catalytic reduction (SCR) is considered as one of the most effective methods for NO elimination.…”
Section: Introductionmentioning
confidence: 99%
“…The Ir 4 f spectrum of the catalyst was shown in Figure 5(b), which was composed of two main peaks, Ir 4f 7/2 and Ir4f 5/2 , and the peaks were fitted separately. The peaks at 60.6∼61.3 eV and 61.7∼62.3 eV was belonged to Ir 0 and Ir 4+ , respectively; in Ir 4f 5/2 , the peaks at 63.5∼64.2 eV and 64.4∼65.1 eV was attributed to Ir 0 and Ir 4+ , [25] respectively. According to the result of area integration, the contents of Ir 0 and Ir 4+ can be calculated (Table 1).…”
Section: Resultsmentioning
confidence: 97%
“…If the load was low, the Ir species will disperse unevenly and the active sites will be too few. If the load is high, the active components would agglomerate on the catalyst surface, which would then block the pores of the catalyst and reduce the specific surface area, thus adversely affecting the catalytic activity [24–27] . As shown in Figure 4(a), when the Ir species load was 2 wt%, the catalyst could achieve 49 % NOx conversion at the reaction temperature of 225 °C.…”
Section: Resultsmentioning
confidence: 99%