SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4321482852> ?p ?o ?g. }

Showing items 1 to 100 of ±110 with 100 items per page.

W4321482852 endingPage "4279" @default.
W4321482852 startingPage "4267" @default.
W4321482852 abstract "Long-term aging of bitumen causes formation of oxidation products that can be associated with polar and strongly interacting functional groups leading to a tremendous influence on bitumen properties. This can lead to an aggregation of the most polar molecules in the asphaltene fraction. Other types of aggregation have also been described in the literature, with larger and more aliphatic compounds through wax interactions. These aggregate phases can be studied using gel permeation chromatography (GPC) for the separation of heavy petroleum products based on their molecular weight. Three molecular weight fractions of native bitumen and its aged state by a long-term pressure aging vessel (PAV-72h) were obtained with low molecular weight (LMW), medium molecular weight (MMW), and high molecular weight (HMW) fractions. To characterize oxidative aging on each fraction at the molecular level, Fourier transform ion cyclotron resonance (FTICR) was used. Indeed, the ultrahigh resolution and mass accuracy of this analyzer allow to attribute molecular formulas to each signal of complex matrices unambiguously. An electrospray ionization (ESI) source was used to selectively ionize acid molecules, while atmospheric pressure photoionization source (APPI) was used to have a nonselective ionization of low polarity molecules from bitumen. With both ionization sources, the LMW fraction exhibited the most aromatic and heteroelement-enriched molecules. In terms of variation with aging, the LMW fraction showed the most pronounced variations. Molecular maps evidenced the occurrence of low DBE oxidation markers for Oz and OzSy families. Low variations were observed on distributions of MMW and HMW fractions. Concerning HMW, these unexpected results, obtained by ESI and APPI ionization sources, may be due to a protection of the molecules against oxidation within aggregates. In addition, APPI results underlined that the higher molecular weight distribution containing most of the aggregate molecules was mainly composed of large aliphatic molecules. Overall, this study demonstrated that oxidation products corresponded to small and aliphatic molecules majorly found in the LMW fraction and that aggregated molecules form HMW fraction were relatively protected from oxidation." @default.
W4321482852 created "2023-02-23" @default.
W4321482852 creator A5000994025 @default.
W4321482852 creator A5006261299 @default.
W4321482852 creator A5006734724 @default.
W4321482852 creator A5035375779 @default.
W4321482852 creator A5035464147 @default.
W4321482852 creator A5042751314 @default.
W4321482852 creator A5051398862 @default.
W4321482852 creator A5060790483 @default.
W4321482852 date "2023-02-22" @default.
W4321482852 modified "2023-09-24" @default.
W4321482852 title "Molecular Characterization of Aged Bitumen with Selective and Nonselective Ionization Methods by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. 3. Investigation on Molecular Fractions Obtained by Gel Permeation Chromatography" @default.
W4321482852 cites W1963761986 @default.
W4321482852 cites W1965341129 @default.
W4321482852 cites W1969501069 @default.
W4321482852 cites W1980778258 @default.
W4321482852 cites W1992361558 @default.
W4321482852 cites W2005309102 @default.
W4321482852 cites W2009212043 @default.
W4321482852 cites W2021920213 @default.
W4321482852 cites W2027300379 @default.
W4321482852 cites W2027793366 @default.
W4321482852 cites W2034914923 @default.
W4321482852 cites W2036040957 @default.
W4321482852 cites W2047365962 @default.
W4321482852 cites W2049288655 @default.
W4321482852 cites W2075737410 @default.
W4321482852 cites W2086699460 @default.
W4321482852 cites W2089395119 @default.
W4321482852 cites W2111822834 @default.
W4321482852 cites W2115422798 @default.
W4321482852 cites W2141429304 @default.
W4321482852 cites W2320122752 @default.
W4321482852 cites W2491902684 @default.
W4321482852 cites W2517566204 @default.
W4321482852 cites W2606904107 @default.
W4321482852 cites W2804113416 @default.
W4321482852 cites W2871909774 @default.
W4321482852 cites W2899134298 @default.
W4321482852 cites W2905424900 @default.
W4321482852 cites W2909366381 @default.
W4321482852 cites W3035145602 @default.
W4321482852 cites W3202540002 @default.
W4321482852 cites W3204675099 @default.
W4321482852 cites W4285093237 @default.
W4321482852 cites W4306818326 @default.
W4321482852 doi "https://doi.org/10.1021/acs.energyfuels.2c04012" @default.
W4321482852 hasPublicationYear "2023" @default.
W4321482852 type Work @default.
W4321482852 citedByCount "2" @default.
W4321482852 countsByYear W43214828522023 @default.
W4321482852 crossrefType "journal-article" @default.
W4321482852 hasAuthorship W4321482852A5000994025 @default.
W4321482852 hasAuthorship W4321482852A5006261299 @default.
W4321482852 hasAuthorship W4321482852A5006734724 @default.
W4321482852 hasAuthorship W4321482852A5035375779 @default.
W4321482852 hasAuthorship W4321482852A5035464147 @default.
W4321482852 hasAuthorship W4321482852A5042751314 @default.
W4321482852 hasAuthorship W4321482852A5051398862 @default.
W4321482852 hasAuthorship W4321482852A5060790483 @default.
W4321482852 hasConcept C113196181 @default.
W4321482852 hasConcept C145148216 @default.
W4321482852 hasConcept C162356407 @default.
W4321482852 hasConcept C170552419 @default.
W4321482852 hasConcept C178790620 @default.
W4321482852 hasConcept C185592680 @default.
W4321482852 hasConcept C198291218 @default.
W4321482852 hasConcept C40684141 @default.
W4321482852 hasConcept C43617362 @default.
W4321482852 hasConcept C521977710 @default.
W4321482852 hasConcept C63179538 @default.
W4321482852 hasConcept C65324659 @default.
W4321482852 hasConceptScore W4321482852C113196181 @default.
W4321482852 hasConceptScore W4321482852C145148216 @default.
W4321482852 hasConceptScore W4321482852C162356407 @default.
W4321482852 hasConceptScore W4321482852C170552419 @default.
W4321482852 hasConceptScore W4321482852C178790620 @default.
W4321482852 hasConceptScore W4321482852C185592680 @default.
W4321482852 hasConceptScore W4321482852C198291218 @default.
W4321482852 hasConceptScore W4321482852C40684141 @default.
W4321482852 hasConceptScore W4321482852C43617362 @default.
W4321482852 hasConceptScore W4321482852C521977710 @default.
W4321482852 hasConceptScore W4321482852C63179538 @default.
W4321482852 hasConceptScore W4321482852C65324659 @default.
W4321482852 hasFunder F4320320883 @default.
W4321482852 hasFunder F4320324219 @default.
W4321482852 hasFunder F4320329938 @default.
W4321482852 hasFunder F4320335322 @default.
W4321482852 hasFunder F4320338338 @default.
W4321482852 hasIssue "6" @default.
W4321482852 hasLocation W43214828521 @default.
W4321482852 hasOpenAccess W4321482852 @default.
W4321482852 hasPrimaryLocation W43214828521 @default.
W4321482852 hasRelatedWork W1978935113 @default.
W4321482852 hasRelatedWork W2019755902 @default.
W4321482852 hasRelatedWork W2044624902 @default.
W4321482852 hasRelatedWork W2072974858 @default.