SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2023009034> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W2023009034 endingPage "175" @default.
W2023009034 startingPage "168" @default.
W2023009034 abstract "• Rh/MCF with different rhodium dispersion was studied in CH 4 reforming with CO 2 . • TOF(CH 4 ) increased with the strength rise of spilt-over hydrogen on Rh/MCF. • The promotion mechanisms were investigated by controlled atmosphere MAS NMR. • Hydrogen spillover promotes the reforming by facilitating rate determining steps. The mesocellular silica foams (MCF) supported rhodium catalysts, prepared by wetness impregnation method, were tested in CH 4 reforming with CO 2 . Hydrogen temperature-programmed desorption (H 2 -TPD) analysis showed that hydrogen spillover occurs on MCF loaded with highly dispersed rhodium. The turnover frequency of CH 4 (TOF CH4 (s −1 )) increased with the strength rise of spilt-over hydrogen. The promotion mechanism was investigated by controlled atmosphere 13 C and 1 H MAS NMR. The spilt-over hydrogen atoms were found to adsorb on the bridged oxygen sites (Si O Si) of MCF and to form surface terminal silanol groups. Meanwhile, in the reforming reaction steps, CH 4 dissociation into CH 3 * and CH 3 O* decomposition into CH 2 O* occurred. The results confirmed that hydrogen atoms can spill over from highly dispersed rhodium species to the neighboring bridged oxygen atoms of MCF, which promotes the reaction by facilitating rate determining steps of CH 4 dissociation and CH x O*( x = 2, 3) intermediates decomposition on metal surface." @default.
W2023009034 created "2016-06-24" @default.
W2023009034 creator A5039706816 @default.
W2023009034 creator A5046287902 @default.
W2023009034 creator A5066716873 @default.
W2023009034 creator A5068252474 @default.
W2023009034 creator A5080220793 @default.
W2023009034 creator A5086282531 @default.
W2023009034 creator A5090685404 @default.
W2023009034 creator A5091086250 @default.
W2023009034 date "2015-03-01" @default.
W2023009034 modified "2023-10-17" @default.
W2023009034 title "The promotion effect of hydrogen spillover on CH4 reforming with CO2 over Rh/MCF catalysts" @default.
W2023009034 cites W1496473416 @default.
W2023009034 cites W1502877375 @default.
W2023009034 cites W1600990564 @default.
W2023009034 cites W1605178602 @default.
W2023009034 cites W1963778744 @default.
W2023009034 cites W1965671247 @default.
W2023009034 cites W1968732513 @default.
W2023009034 cites W1968804952 @default.
W2023009034 cites W1978970995 @default.
W2023009034 cites W1979832751 @default.
W2023009034 cites W1983187660 @default.
W2023009034 cites W1987433479 @default.
W2023009034 cites W1990478799 @default.
W2023009034 cites W1996980133 @default.
W2023009034 cites W1999417055 @default.
W2023009034 cites W2000347398 @default.
W2023009034 cites W2000524239 @default.
W2023009034 cites W2012063820 @default.
W2023009034 cites W2012370138 @default.
W2023009034 cites W2012609891 @default.
W2023009034 cites W2013810898 @default.
W2023009034 cites W2014070535 @default.
W2023009034 cites W2018032657 @default.
W2023009034 cites W2019445674 @default.
W2023009034 cites W2023290514 @default.
W2023009034 cites W2026934289 @default.
W2023009034 cites W2031865971 @default.
W2023009034 cites W2032114106 @default.
W2023009034 cites W2033649753 @default.
W2023009034 cites W2034913898 @default.
W2023009034 cites W2037415288 @default.
W2023009034 cites W2037633558 @default.
W2023009034 cites W2040457931 @default.
W2023009034 cites W2041004291 @default.
W2023009034 cites W2041128466 @default.
W2023009034 cites W2042001323 @default.
W2023009034 cites W2043015059 @default.
W2023009034 cites W2049741790 @default.
W2023009034 cites W2051425692 @default.
W2023009034 cites W2053018137 @default.
W2023009034 cites W2061655752 @default.
W2023009034 cites W2062772293 @default.
W2023009034 cites W2067554268 @default.
W2023009034 cites W2069005274 @default.
W2023009034 cites W2070415453 @default.
W2023009034 cites W2072306702 @default.
W2023009034 cites W2073466472 @default.
W2023009034 cites W2074923057 @default.
W2023009034 cites W2078597388 @default.
W2023009034 cites W2081954422 @default.
W2023009034 cites W2083337692 @default.
W2023009034 cites W2084077457 @default.
W2023009034 cites W2091400814 @default.
W2023009034 cites W2091658635 @default.
W2023009034 cites W2093625195 @default.
W2023009034 cites W2096456007 @default.
W2023009034 cites W2114266643 @default.
W2023009034 cites W2117958958 @default.
W2023009034 cites W2126236185 @default.
W2023009034 cites W2136122456 @default.
W2023009034 cites W2140012705 @default.
W2023009034 cites W2142148918 @default.
W2023009034 cites W2149567138 @default.
W2023009034 cites W2171438195 @default.
W2023009034 cites W2317308487 @default.
W2023009034 cites W2318994324 @default.
W2023009034 cites W2325964825 @default.
W2023009034 cites W2330572699 @default.
W2023009034 cites W2472658047 @default.
W2023009034 cites W396325250 @default.
W2023009034 doi "https://doi.org/10.1016/j.apcatb.2014.09.006" @default.
W2023009034 hasPublicationYear "2015" @default.
W2023009034 type Work @default.
W2023009034 sameAs 2023009034 @default.
W2023009034 citedByCount "42" @default.
W2023009034 countsByYear W20230090342015 @default.
W2023009034 countsByYear W20230090342016 @default.
W2023009034 countsByYear W20230090342017 @default.
W2023009034 countsByYear W20230090342018 @default.
W2023009034 countsByYear W20230090342019 @default.
W2023009034 countsByYear W20230090342020 @default.
W2023009034 countsByYear W20230090342021 @default.
W2023009034 countsByYear W20230090342022 @default.
W2023009034 countsByYear W20230090342023 @default.
W2023009034 crossrefType "journal-article" @default.