SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2014359941> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W2014359941 endingPage "51" @default.
W2014359941 startingPage "46" @default.
W2014359941 abstract "Hydrogen sorption properties of graphene-related materials were studied by gravimetric and volumetric methods at 293 K and 77 K. Rapid thermal exfoliation of different types of graphite oxide (GO) precursors yielded samples with maximal surface areas up to 850 m2/g, whereas surface areas up to 2300 m2/g were achieved by post-exfoliation activation treatments. Therefore, hydrogen storage parameters of graphene materials could be evaluated in a broad range of surface areas. The H2 uptake vs surface area trend revealed in this study shows that hydrogen storage by graphene materials do not exceed 1 Wt% at 120 Bar H2 at ambient temperatures. Linear increase of hydrogen adsorption vs surface area was observed at 77 K with maximal observed value of ∼5 Wt% for 2300 m2/g sample. It can be concluded that bulk graphene samples obtained using graphite oxide exfoliation and activation follow standard for other nanostructured carbons hydrogen uptake trends and do not demonstrate superior hydrogen storage parameters reported in several earlier studies. Nevertheless, graphene remains to be one of the best materials for physisorption of hydrogen, especially at low temperatures." @default.
W2014359941 created "2016-06-24" @default.
W2014359941 creator A5000175169 @default.
W2014359941 creator A5005760896 @default.
W2014359941 creator A5018527639 @default.
W2014359941 creator A5029203580 @default.
W2014359941 creator A5049968484 @default.
W2014359941 creator A5061632476 @default.
W2014359941 date "2015-07-01" @default.
W2014359941 modified "2023-10-18" @default.
W2014359941 title "Hydrogen storage in bulk graphene-related materials" @default.
W2014359941 cites W113299661 @default.
W2014359941 cites W1971079087 @default.
W2014359941 cites W1972087254 @default.
W2014359941 cites W1975501285 @default.
W2014359941 cites W1975601511 @default.
W2014359941 cites W1982805474 @default.
W2014359941 cites W1984223743 @default.
W2014359941 cites W1985554567 @default.
W2014359941 cites W1985945601 @default.
W2014359941 cites W1990698449 @default.
W2014359941 cites W1991798777 @default.
W2014359941 cites W1997019992 @default.
W2014359941 cites W1999677040 @default.
W2014359941 cites W2009122997 @default.
W2014359941 cites W2009392824 @default.
W2014359941 cites W2012401276 @default.
W2014359941 cites W2016609529 @default.
W2014359941 cites W2017420709 @default.
W2014359941 cites W2027289812 @default.
W2014359941 cites W2032288585 @default.
W2014359941 cites W2033177435 @default.
W2014359941 cites W2035519001 @default.
W2014359941 cites W2036939243 @default.
W2014359941 cites W2040935338 @default.
W2014359941 cites W2041858177 @default.
W2014359941 cites W2052319966 @default.
W2014359941 cites W2055345420 @default.
W2014359941 cites W2055889238 @default.
W2014359941 cites W2065062234 @default.
W2014359941 cites W2078597388 @default.
W2014359941 cites W2080884349 @default.
W2014359941 cites W2089015483 @default.
W2014359941 cites W2094166937 @default.
W2014359941 cites W2103217368 @default.
W2014359941 cites W2106849118 @default.
W2014359941 cites W2107089157 @default.
W2014359941 cites W2108695172 @default.
W2014359941 cites W2110318065 @default.
W2014359941 cites W2113342617 @default.
W2014359941 cites W2128654538 @default.
W2014359941 cites W2141235778 @default.
W2014359941 cites W2141939342 @default.
W2014359941 cites W2148736366 @default.
W2014359941 cites W2159078042 @default.
W2014359941 cites W2166413847 @default.
W2014359941 cites W22698497 @default.
W2014359941 cites W2314392231 @default.
W2014359941 cites W2317308487 @default.
W2014359941 cites W2952744162 @default.
W2014359941 cites W4233194460 @default.
W2014359941 doi "https://doi.org/10.1016/j.micromeso.2015.02.017" @default.
W2014359941 hasPublicationYear "2015" @default.
W2014359941 type Work @default.
W2014359941 sameAs 2014359941 @default.
W2014359941 citedByCount "90" @default.
W2014359941 countsByYear W20143599412014 @default.
W2014359941 countsByYear W20143599412015 @default.
W2014359941 countsByYear W20143599412016 @default.
W2014359941 countsByYear W20143599412017 @default.
W2014359941 countsByYear W20143599412018 @default.
W2014359941 countsByYear W20143599412019 @default.
W2014359941 countsByYear W20143599412020 @default.
W2014359941 countsByYear W20143599412021 @default.
W2014359941 countsByYear W20143599412022 @default.
W2014359941 countsByYear W20143599412023 @default.
W2014359941 crossrefType "journal-article" @default.
W2014359941 hasAuthorship W2014359941A5000175169 @default.
W2014359941 hasAuthorship W2014359941A5005760896 @default.
W2014359941 hasAuthorship W2014359941A5018527639 @default.
W2014359941 hasAuthorship W2014359941A5029203580 @default.
W2014359941 hasAuthorship W2014359941A5049968484 @default.
W2014359941 hasAuthorship W2014359941A5061632476 @default.
W2014359941 hasBestOaLocation W20143599412 @default.
W2014359941 hasConcept C127413603 @default.
W2014359941 hasConcept C129162502 @default.
W2014359941 hasConcept C150394285 @default.
W2014359941 hasConcept C150581940 @default.
W2014359941 hasConcept C159985019 @default.
W2014359941 hasConcept C161790260 @default.
W2014359941 hasConcept C169560958 @default.
W2014359941 hasConcept C171250308 @default.
W2014359941 hasConcept C178790620 @default.
W2014359941 hasConcept C179104552 @default.
W2014359941 hasConcept C185592680 @default.
W2014359941 hasConcept C191897082 @default.
W2014359941 hasConcept C192562407 @default.
W2014359941 hasConcept C205286655 @default.