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W1974958441 endingPage "6539" @default.
W1974958441 startingPage "6530" @default.
W1974958441 abstract "Abstract Complete dehydrogenation of methane is studied on model Pt catalysts by means of state‐of‐the‐art DFT methods and by a combination of supersonic molecular beams with high‐resolution photoelectron spectroscopy. The DFT results predict that intermediate species like CH 3 and CH 2 are specially stabilized at sites located at particles edges and corners by an amount of 50–80 kJ mol −1 . This stabilization is caused by an enhanced activity of low‐coordinated sites accompanied by their special flexibility to accommodate adsorbates. The kinetics of the complete dehydrogenation of methane is substantially modified according to the reaction energy profiles when switching from Pt(111) extended surfaces to Pt nanoparticles. The CH 3 and CH 2 formation steps are endothermic on Pt(111) but markedly exothermic on Pt 79 . An important decrease of the reaction barriers is observed in the latter case with values of approximately 60 kJ mol −1 for first CH bond scission and 40 kJ mol −1 for methyl decomposition. DFT predictions are experimentally confirmed by methane decomposition on Pt nanoparticles supported on an ordered CeO 2 film on Cu(111). It is shown that CH 3 generated on the Pt nanoparticles undergoes spontaneous dehydrogenation at 100 K. This is in sharp contrast to previous results on Pt single‐crystal surfaces in which CH 3 was stable up to much higher temperatures. This result underlines the critical role of particle edge sites in methane activation and dehydrogenation." @default.
W1974958441 created "2016-06-24" @default.
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W1974958441 date "2010-06-02" @default.
W1974958441 modified "2023-10-18" @default.
W1974958441 title "Methane Activation by Platinum: Critical Role of Edge and Corner Sites of Metal Nanoparticles" @default.
W1974958441 cites W1496473416 @default.
W1974958441 cites W1643019841 @default.
W1974958441 cites W1963734394 @default.
W1974958441 cites W1963739101 @default.
W1974958441 cites W1965118658 @default.
W1974958441 cites W1970127494 @default.
W1974958441 cites W1970238773 @default.
W1974958441 cites W1974049583 @default.
W1974958441 cites W1975231288 @default.
W1974958441 cites W1980416864 @default.
W1974958441 cites W1981368803 @default.
W1974958441 cites W1990594008 @default.
W1974958441 cites W1991149034 @default.
W1974958441 cites W1994948716 @default.
W1974958441 cites W1999311696 @default.
W1974958441 cites W2001945408 @default.
W1974958441 cites W2004830229 @default.
W1974958441 cites W2006504650 @default.
W1974958441 cites W2007135038 @default.
W1974958441 cites W2009065662 @default.
W1974958441 cites W2009543130 @default.
W1974958441 cites W2011660856 @default.
W1974958441 cites W2012370138 @default.
W1974958441 cites W2012544970 @default.
W1974958441 cites W2014069953 @default.
W1974958441 cites W2017639183 @default.
W1974958441 cites W2017854104 @default.
W1974958441 cites W2018754630 @default.
W1974958441 cites W2020418769 @default.
W1974958441 cites W2022675375 @default.
W1974958441 cites W2026256344 @default.
W1974958441 cites W2032400718 @default.
W1974958441 cites W2032759659 @default.
W1974958441 cites W2033980606 @default.
W1974958441 cites W2034213992 @default.
W1974958441 cites W2034300455 @default.
W1974958441 cites W2035085916 @default.
W1974958441 cites W2037841193 @default.
W1974958441 cites W2041030516 @default.
W1974958441 cites W2042170045 @default.
W1974958441 cites W2042627852 @default.
W1974958441 cites W2044296272 @default.
W1974958441 cites W2047741903 @default.
W1974958441 cites W2048626879 @default.
W1974958441 cites W2049079467 @default.
W1974958441 cites W2049552690 @default.
W1974958441 cites W2050505909 @default.
W1974958441 cites W2052462520 @default.
W1974958441 cites W2054222536 @default.
W1974958441 cites W2056700384 @default.
W1974958441 cites W2058403747 @default.
W1974958441 cites W2060954670 @default.
W1974958441 cites W2067746562 @default.
W1974958441 cites W2071757218 @default.
W1974958441 cites W2075900833 @default.
W1974958441 cites W2083222334 @default.
W1974958441 cites W2088808858 @default.
W1974958441 cites W2091291149 @default.
W1974958441 cites W2096178480 @default.
W1974958441 cites W2102807619 @default.
W1974958441 cites W2123485699 @default.
W1974958441 cites W2133290052 @default.
W1974958441 cites W2136733582 @default.
W1974958441 cites W2142412171 @default.
W1974958441 cites W2143981217 @default.
W1974958441 cites W2147630065 @default.
W1974958441 cites W2153502737 @default.
W1974958441 cites W2159155378 @default.
W1974958441 cites W2159578679 @default.
W1974958441 cites W2162006231 @default.
W1974958441 cites W2163914796 @default.
W1974958441 cites W2170523283 @default.
W1974958441 cites W2317001095 @default.
W1974958441 cites W4239794536 @default.
W1974958441 cites W4250741715 @default.
W1974958441 cites W987508513 @default.
W1974958441 doi "https://doi.org/10.1002/chem.201000296" @default.
W1974958441 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20419714" @default.
W1974958441 hasPublicationYear "2010" @default.
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