SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2047822010> ?p ?o ?g. }

Showing items 1 to 100 of ±131 with 100 items per page.

W2047822010 endingPage "2639" @default.
W2047822010 startingPage "2639" @default.
W2047822010 abstract "It has been a long-term dream for scientists working in the field of catalysis to characterize the catalyst details at any state during the course of reaction under actual working conditions. Here, an amber-inspired hybrid material was designed to trap the catalyst working state generated during the reaction process of cobalt-based Fischer–Tropsch synthesis (FTS), which made the unavailable information for the catalytic clean liquid fuel synthesis processes obtainable via current ex situ characterization techniques. The trapped states were used to study the nanostructure evolution of the air-sensitive active species. In the experiments, the thin films of organic modifier anchored onto the montmorillonite (MMT) supports were designed to prevent the active Co components and phases generated during catalytic reaction from being oxidized when they are exposed to air. Consequently, the changes of the active species such as ε-Co to hcp Co and ε-Co to fcc Co phase transformation, Co nanoparticle growth, reoxidation during reaction, and the structure–property relationship of FTS catalysts were revealed clearly for the first time." @default.
W2047822010 created "2016-06-24" @default.
W2047822010 creator A5008199212 @default.
W2047822010 creator A5016596020 @default.
W2047822010 creator A5017795751 @default.
W2047822010 creator A5019825191 @default.
W2047822010 creator A5029257600 @default.
W2047822010 creator A5036149615 @default.
W2047822010 creator A5057723713 @default.
W2047822010 creator A5070398287 @default.
W2047822010 creator A5075757992 @default.
W2047822010 creator A5087558541 @default.
W2047822010 date "2013-01-01" @default.
W2047822010 modified "2023-10-09" @default.
W2047822010 title "Trapping the catalyst working state by amber-inspired hybrid material to reveal the cobalt nanostructure evolution in clean liquid fuel synthesis" @default.
W2047822010 cites W1506368949 @default.
W2047822010 cites W1866046140 @default.
W2047822010 cites W1963977109 @default.
W2047822010 cites W1964462979 @default.
W2047822010 cites W1967164198 @default.
W2047822010 cites W1968739228 @default.
W2047822010 cites W1971467511 @default.
W2047822010 cites W1971912334 @default.
W2047822010 cites W1975280241 @default.
W2047822010 cites W1979291186 @default.
W2047822010 cites W1981792803 @default.
W2047822010 cites W1987336493 @default.
W2047822010 cites W1996394486 @default.
W2047822010 cites W2001928221 @default.
W2047822010 cites W2003098821 @default.
W2047822010 cites W2009117881 @default.
W2047822010 cites W2020241645 @default.
W2047822010 cites W2027396520 @default.
W2047822010 cites W2030880888 @default.
W2047822010 cites W2030945263 @default.
W2047822010 cites W2033919001 @default.
W2047822010 cites W2048554194 @default.
W2047822010 cites W2052261464 @default.
W2047822010 cites W2055393736 @default.
W2047822010 cites W2058994515 @default.
W2047822010 cites W2060363249 @default.
W2047822010 cites W2060564775 @default.
W2047822010 cites W2068608257 @default.
W2047822010 cites W2074106220 @default.
W2047822010 cites W2076790869 @default.
W2047822010 cites W2078527804 @default.
W2047822010 cites W2082743607 @default.
W2047822010 cites W2083528183 @default.
W2047822010 cites W2088244371 @default.
W2047822010 cites W2089276927 @default.
W2047822010 cites W2092802361 @default.
W2047822010 cites W2095763083 @default.
W2047822010 cites W2096323700 @default.
W2047822010 cites W2109267165 @default.
W2047822010 cites W2117523245 @default.
W2047822010 cites W2133989551 @default.
W2047822010 cites W2134267055 @default.
W2047822010 cites W2141565159 @default.
W2047822010 cites W2142849378 @default.
W2047822010 cites W2148667390 @default.
W2047822010 cites W2157427026 @default.
W2047822010 cites W2169847103 @default.
W2047822010 cites W2323003947 @default.
W2047822010 cites W4236452689 @default.
W2047822010 doi "https://doi.org/10.1039/c3cy00366c" @default.
W2047822010 hasPublicationYear "2013" @default.
W2047822010 type Work @default.
W2047822010 sameAs 2047822010 @default.
W2047822010 citedByCount "11" @default.
W2047822010 countsByYear W20478220102015 @default.
W2047822010 countsByYear W20478220102017 @default.
W2047822010 countsByYear W20478220102020 @default.
W2047822010 countsByYear W20478220102023 @default.
W2047822010 crossrefType "journal-article" @default.
W2047822010 hasAuthorship W2047822010A5008199212 @default.
W2047822010 hasAuthorship W2047822010A5016596020 @default.
W2047822010 hasAuthorship W2047822010A5017795751 @default.
W2047822010 hasAuthorship W2047822010A5019825191 @default.
W2047822010 hasAuthorship W2047822010A5029257600 @default.
W2047822010 hasAuthorship W2047822010A5036149615 @default.
W2047822010 hasAuthorship W2047822010A5057723713 @default.
W2047822010 hasAuthorship W2047822010A5070398287 @default.
W2047822010 hasAuthorship W2047822010A5075757992 @default.
W2047822010 hasAuthorship W2047822010A5087558541 @default.
W2047822010 hasConcept C127413603 @default.
W2047822010 hasConcept C155672457 @default.
W2047822010 hasConcept C161790260 @default.
W2047822010 hasConcept C171250308 @default.
W2047822010 hasConcept C178790620 @default.
W2047822010 hasConcept C185592680 @default.
W2047822010 hasConcept C186187911 @default.
W2047822010 hasConcept C191897082 @default.
W2047822010 hasConcept C192562407 @default.
W2047822010 hasConcept C2780841128 @default.
W2047822010 hasConcept C42360764 @default.
W2047822010 hasConcept C44280652 @default.
W2047822010 hasConcept C515602321 @default.
W2047822010 hasConceptScore W2047822010C127413603 @default.