SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2684632677> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W2684632677 endingPage "15265" @default.
W2684632677 startingPage "15256" @default.
W2684632677 abstract "Co3O4 with a spinel structure shows unique activity for CO oxidation at low temperature under dry conditions; however the active surface is not very stable. In this study, two series of Fe- and Cr-doped Co3O4 catalysts were prepared by a single-step solution combustion technique. Fe was chosen because of its redox activity corresponding to the Fe2+/Fe3+ redox couple and compared to Cr, which is mainly stable in the Cr3+ state. The catalytic activity of new materials for low-temperature CO oxidation was correlated to the nature of the dopant. As a function of dopant concentration, the temperature corresponding to the 50% CO conversion (T50) demonstrated significant differences. The maximal activity was achieved for 15% Fe-doped Co3O4 with T50 of −85 °C and remained almost constant up to 25% Fe. In the case of Cr, the activity was observed to be maximum for 7% of Cr with T50 of −42 °C and significantly decreased for higher Cr loadings. Similarly, there was a contrasting behavior in catalyst stability too. 100% CO conversion was achieved below −60 °C for 15% Fe/Co3O4 catalyst and remained unchanged even after calcination at 600 °C. In contrast, Co3O4 or 15% Cr/Co3O4 catalysts strongly deactivated after the same treatment. These differences were correlated to the oxidation states, coordination numbers, the nature of surface planes, and the redox properties. We observed that both Cr and Fe were typically present in the +3 oxidation state, occupying octahedral sites in the spinel structure. The catalysts were mainly exposed to (111) and (220) planes on the surface. H2-TPR indicated clear differences in the redox activity of materials due to Fe and Cr substitutions. The reducibility of surface Co3+ species remained similar in all Fe-doped Co3O4 catalysts in contrast to nonreducible Cr-doped analogs, which shifted the reduction temperature to the higher values. As the Fe3+/Fe2+ redox couple partly substituted the Co3+/Co2+ redox couple in the spinel structure, similar bond strength of Fe–O keep redox activity of Co3+ species almost unchanged leading to higher activity and stability of Fe/Co3O4 catalysts for low-temperature CO oxidation. In contrast, nonreducible Cr3+ species characterized by strong Cr–O bond substituting active Co3+ sites can make the Cr/Co3O4 surface less active for CO oxidation." @default.
W2684632677 created "2017-06-30" @default.
W2684632677 creator A5017623773 @default.
W2684632677 creator A5025940540 @default.
W2684632677 creator A5028773432 @default.
W2684632677 creator A5047808675 @default.
W2684632677 creator A5050871990 @default.
W2684632677 creator A5059126209 @default.
W2684632677 creator A5075407755 @default.
W2684632677 creator A5090146054 @default.
W2684632677 date "2017-07-07" @default.
W2684632677 modified "2023-10-01" @default.
W2684632677 title "Low-Temperature CO Oxidation over Combustion Made Fe- and Cr-Doped Co<sub>3</sub>O<sub>4</sub> Catalysts: Role of Dopant’s Nature toward Achieving Superior Catalytic Activity and Stability" @default.
W2684632677 cites W1445334067 @default.
W2684632677 cites W1526595058 @default.
W2684632677 cites W1947640403 @default.
W2684632677 cites W1976172833 @default.
W2684632677 cites W1981792803 @default.
W2684632677 cites W1986335041 @default.
W2684632677 cites W1988392336 @default.
W2684632677 cites W1991994168 @default.
W2684632677 cites W1992990388 @default.
W2684632677 cites W1996707709 @default.
W2684632677 cites W1997587118 @default.
W2684632677 cites W1999160219 @default.
W2684632677 cites W2008091090 @default.
W2684632677 cites W2015649955 @default.
W2684632677 cites W2015746140 @default.
W2684632677 cites W2016012242 @default.
W2684632677 cites W2017168364 @default.
W2684632677 cites W2018066376 @default.
W2684632677 cites W2022881088 @default.
W2684632677 cites W2029399071 @default.
W2684632677 cites W2034847829 @default.
W2684632677 cites W2036398245 @default.
W2684632677 cites W2037278945 @default.
W2684632677 cites W2044842642 @default.
W2684632677 cites W2051619427 @default.
W2684632677 cites W2052939440 @default.
W2684632677 cites W2069817175 @default.
W2684632677 cites W2070227796 @default.
W2684632677 cites W2073924835 @default.
W2684632677 cites W2081292041 @default.
W2684632677 cites W2094607344 @default.
W2684632677 cites W2095204894 @default.
W2684632677 cites W2110977814 @default.
W2684632677 cites W2111829573 @default.
W2684632677 cites W2123038189 @default.
W2684632677 cites W2126042711 @default.
W2684632677 cites W2134681354 @default.
W2684632677 cites W2139657740 @default.
W2684632677 cites W2145413612 @default.
W2684632677 cites W2150698471 @default.
W2684632677 cites W2153036513 @default.
W2684632677 cites W2161162202 @default.
W2684632677 cites W2171924891 @default.
W2684632677 cites W2191562515 @default.
W2684632677 cites W2314499310 @default.
W2684632677 cites W2339510751 @default.
W2684632677 cites W2528550212 @default.
W2684632677 cites W2566002308 @default.
W2684632677 doi "https://doi.org/10.1021/acs.jpcc.7b04348" @default.
W2684632677 hasPublicationYear "2017" @default.
W2684632677 type Work @default.
W2684632677 sameAs 2684632677 @default.
W2684632677 citedByCount "60" @default.
W2684632677 countsByYear W26846326772018 @default.
W2684632677 countsByYear W26846326772019 @default.
W2684632677 countsByYear W26846326772020 @default.
W2684632677 countsByYear W26846326772021 @default.
W2684632677 countsByYear W26846326772022 @default.
W2684632677 countsByYear W26846326772023 @default.
W2684632677 crossrefType "journal-article" @default.
W2684632677 hasAuthorship W2684632677A5017623773 @default.
W2684632677 hasAuthorship W2684632677A5025940540 @default.
W2684632677 hasAuthorship W2684632677A5028773432 @default.
W2684632677 hasAuthorship W2684632677A5047808675 @default.
W2684632677 hasAuthorship W2684632677A5050871990 @default.
W2684632677 hasAuthorship W2684632677A5059126209 @default.
W2684632677 hasAuthorship W2684632677A5075407755 @default.
W2684632677 hasAuthorship W2684632677A5090146054 @default.
W2684632677 hasBestOaLocation W26846326772 @default.
W2684632677 hasConcept C105923489 @default.
W2684632677 hasConcept C115624301 @default.
W2684632677 hasConcept C147789679 @default.
W2684632677 hasConcept C161790260 @default.
W2684632677 hasConcept C178790620 @default.
W2684632677 hasConcept C179104552 @default.
W2684632677 hasConcept C185592680 @default.
W2684632677 hasConcept C191897082 @default.
W2684632677 hasConcept C191952053 @default.
W2684632677 hasConcept C192562407 @default.
W2684632677 hasConcept C198819137 @default.
W2684632677 hasConcept C2776230739 @default.
W2684632677 hasConcept C2778591166 @default.
W2684632677 hasConcept C49040817 @default.
W2684632677 hasConcept C55904794 @default.
W2684632677 hasConcept C57863236 @default.