SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3048551301> ?p ?o ?g. }

Showing items 1 to 100 of ±173 with 100 items per page.

W3048551301 endingPage "268" @default.
W3048551301 startingPage "251" @default.
W3048551301 abstract "Abstract Nanosized NiO, CeO 2 and NiO-CeO 2 mixed oxides with different Ni/Ce molar ratios were prepared by the soft template method. All the samples were characterized by different techniques as to their chemical composition, structure, morphology and texture. On the catalysts submitted to the same reduction pretreatment adopted for the activity tests the surface basic properties and specific metal surface area were also determined. NiO and CeO 2 nanocrystals of about 4 nm in size were obtained, regardless of the Ni/Ce molar ratio. The Raman and X-ray photoelectron spectroscopy results proved the formation of defective sites at the NiO-CeO 2 interface, where Ni species are in strong interaction with the support. The microcalorimetric and Fourier transform infrared analyses of the reduced samples highlighted that, unlike metallic nickel, CeO 2 is able to effectively adsorb CO 2 , forming carbonates and hydrogen carbonates. After reduction in H 2 at 400 °C for 1 h, the catalytic performance was studied in the CO and CO 2 co-methanation reaction. Catalytic tests were performed at atmospheric pressure and 300 °C, using CO/CO 2 /H 2 molar compositions of 1/1/7 or 1/1/5, and space velocities equal to 72000 or 450000 cm 3 ·h −1 ·g cat −1 . Whereas CO was almost completely hydrogenated in any investigated experimental conditions, CO 2 conversion was strongly affected by both the CO/CO 2 /H 2 ratio and the space velocity. The faster and definitely preferred CO hydrogenation was explained in the light of the different mechanisms of CO and CO 2 methanation. On a selected sample, the influence of the reaction temperature and of a higher number of space velocity values, as well as the stability, were also studied. Provided that the Ni content is optimized, the NiCe system investigated was very promising, being highly active for the CO x co-methanation reaction in a wide range of operating conditions and stable (up to 50 h) also when submitted to thermal stress." @default.
W3048551301 created "2020-08-18" @default.
W3048551301 creator A5007752829 @default.
W3048551301 creator A5008570858 @default.
W3048551301 creator A5034080774 @default.
W3048551301 creator A5039442583 @default.
W3048551301 creator A5046763472 @default.
W3048551301 creator A5048937031 @default.
W3048551301 creator A5051240382 @default.
W3048551301 creator A5058393417 @default.
W3048551301 creator A5059635034 @default.
W3048551301 date "2020-08-12" @default.
W3048551301 modified "2023-10-12" @default.
W3048551301 title "Characterization and catalytic activity of soft-templated NiO-CeO2 mixed oxides for CO and CO2 co-methanation" @default.
W3048551301 cites W1051249732 @default.
W3048551301 cites W1963559493 @default.
W3048551301 cites W1967093789 @default.
W3048551301 cites W1968333488 @default.
W3048551301 cites W1976345609 @default.
W3048551301 cites W1980158088 @default.
W3048551301 cites W1986543410 @default.
W3048551301 cites W1990296068 @default.
W3048551301 cites W1993525445 @default.
W3048551301 cites W1993784598 @default.
W3048551301 cites W1999116410 @default.
W3048551301 cites W2001488727 @default.
W3048551301 cites W2004239068 @default.
W3048551301 cites W2012346855 @default.
W3048551301 cites W2013213142 @default.
W3048551301 cites W2014457977 @default.
W3048551301 cites W2015868938 @default.
W3048551301 cites W2018308783 @default.
W3048551301 cites W2020720108 @default.
W3048551301 cites W2020830441 @default.
W3048551301 cites W2022042730 @default.
W3048551301 cites W2022730294 @default.
W3048551301 cites W2027942953 @default.
W3048551301 cites W2034166168 @default.
W3048551301 cites W2043496268 @default.
W3048551301 cites W2046612048 @default.
W3048551301 cites W2050239448 @default.
W3048551301 cites W2052343907 @default.
W3048551301 cites W2062069497 @default.
W3048551301 cites W2065051207 @default.
W3048551301 cites W2067008859 @default.
W3048551301 cites W2068717414 @default.
W3048551301 cites W2070249775 @default.
W3048551301 cites W2072304937 @default.
W3048551301 cites W2075228459 @default.
W3048551301 cites W2081165947 @default.
W3048551301 cites W2082175629 @default.
W3048551301 cites W2083205829 @default.
W3048551301 cites W2083573144 @default.
W3048551301 cites W2084195621 @default.
W3048551301 cites W2111865195 @default.
W3048551301 cites W2113570021 @default.
W3048551301 cites W2114494558 @default.
W3048551301 cites W2137791392 @default.
W3048551301 cites W2167650137 @default.
W3048551301 cites W2260550391 @default.
W3048551301 cites W2297443788 @default.
W3048551301 cites W2318957697 @default.
W3048551301 cites W2319195884 @default.
W3048551301 cites W2320431951 @default.
W3048551301 cites W2322588385 @default.
W3048551301 cites W2326949162 @default.
W3048551301 cites W2330073286 @default.
W3048551301 cites W2344251303 @default.
W3048551301 cites W2483582576 @default.
W3048551301 cites W2510964032 @default.
W3048551301 cites W2515586359 @default.
W3048551301 cites W2549356270 @default.
W3048551301 cites W2553132888 @default.
W3048551301 cites W2590180270 @default.
W3048551301 cites W2624867665 @default.
W3048551301 cites W2738196107 @default.
W3048551301 cites W2740116847 @default.
W3048551301 cites W2755206309 @default.
W3048551301 cites W2783227862 @default.
W3048551301 cites W2802281298 @default.
W3048551301 cites W2815415309 @default.
W3048551301 cites W289048022 @default.
W3048551301 cites W2897753514 @default.
W3048551301 cites W2944563768 @default.
W3048551301 cites W3024988479 @default.
W3048551301 cites W3147346740 @default.
W3048551301 cites W319820990 @default.
W3048551301 cites W4361866860 @default.
W3048551301 doi "https://doi.org/10.1007/s11705-020-1951-8" @default.
W3048551301 hasPublicationYear "2020" @default.
W3048551301 type Work @default.
W3048551301 sameAs 3048551301 @default.
W3048551301 citedByCount "16" @default.
W3048551301 countsByYear W30485513012021 @default.
W3048551301 countsByYear W30485513012022 @default.
W3048551301 countsByYear W30485513012023 @default.
W3048551301 crossrefType "journal-article" @default.
W3048551301 hasAuthorship W3048551301A5007752829 @default.