SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4224881238> ?p ?o ?g. }

Showing items 1 to 100 of ±175 with 100 items per page.

W4224881238 endingPage "1200" @default.
W4224881238 startingPage "1187" @default.
W4224881238 abstract "Understanding the details of water interacting with graphene is essential for various applications, such as water desalination, energy storage, and catalysis. However, the hydrogen-bonding structure of the water at the graphene-water interface has not been fully understood. Vibrational sum frequency generation (VSFG) spectroscopy is suited to elucidate the water structure at graphene-water interfaces. With varying numbers of graphene layers or tuning the doping level of a single monolayer, the interfacial water structure differs substantially. Specifically, as the number of graphene layers increases, water molecules with non-H-bonded, dangling OH groups become increasingly apparent. The fraction of dangling OH groups inferred from the VSFG spectrum correlates with the water adhesion energy of graphene. This observation suggests that VSFG could be an incisive technique for measuring the water adhesion energy on any spatially confined interface where the water contact angle cannot be measured. We anticipate that VSFG spectroscopy will shed light on the wettability of low-dimensional materials." @default.
W4224881238 created "2022-04-27" @default.
W4224881238 creator A5001165782 @default.
W4224881238 creator A5017647814 @default.
W4224881238 creator A5027685378 @default.
W4224881238 creator A5032888224 @default.
W4224881238 creator A5033780451 @default.
W4224881238 creator A5034219746 @default.
W4224881238 date "2022-05-01" @default.
W4224881238 modified "2023-10-13" @default.
W4224881238 title "Wettability of graphene, water contact angle, and interfacial water structure" @default.
W4224881238 cites W1968056747 @default.
W4224881238 cites W1968640710 @default.
W4224881238 cites W1970007965 @default.
W4224881238 cites W1973506949 @default.
W4224881238 cites W1979245488 @default.
W4224881238 cites W1980419364 @default.
W4224881238 cites W1983518360 @default.
W4224881238 cites W1984190949 @default.
W4224881238 cites W1984961901 @default.
W4224881238 cites W2000827899 @default.
W4224881238 cites W2007062436 @default.
W4224881238 cites W2007435578 @default.
W4224881238 cites W2015946428 @default.
W4224881238 cites W2025959544 @default.
W4224881238 cites W2039296412 @default.
W4224881238 cites W2055643330 @default.
W4224881238 cites W2058122340 @default.
W4224881238 cites W2069777400 @default.
W4224881238 cites W2081475623 @default.
W4224881238 cites W2084613695 @default.
W4224881238 cites W2091615129 @default.
W4224881238 cites W2093660172 @default.
W4224881238 cites W2094348586 @default.
W4224881238 cites W2103682736 @default.
W4224881238 cites W2114474373 @default.
W4224881238 cites W2115456761 @default.
W4224881238 cites W2123510746 @default.
W4224881238 cites W2125284466 @default.
W4224881238 cites W2135286426 @default.
W4224881238 cites W2146564548 @default.
W4224881238 cites W2162168720 @default.
W4224881238 cites W2163851259 @default.
W4224881238 cites W2164799013 @default.
W4224881238 cites W2174369118 @default.
W4224881238 cites W2234373411 @default.
W4224881238 cites W2284611616 @default.
W4224881238 cites W2318355736 @default.
W4224881238 cites W2318670989 @default.
W4224881238 cites W2320243880 @default.
W4224881238 cites W2321117320 @default.
W4224881238 cites W2321130726 @default.
W4224881238 cites W2325830109 @default.
W4224881238 cites W2327383586 @default.
W4224881238 cites W2330505648 @default.
W4224881238 cites W2408988793 @default.
W4224881238 cites W2412980035 @default.
W4224881238 cites W2427539736 @default.
W4224881238 cites W2438100474 @default.
W4224881238 cites W2464089215 @default.
W4224881238 cites W2511130895 @default.
W4224881238 cites W2549447336 @default.
W4224881238 cites W2551978783 @default.
W4224881238 cites W2592659568 @default.
W4224881238 cites W2597284751 @default.
W4224881238 cites W2609743151 @default.
W4224881238 cites W2731864212 @default.
W4224881238 cites W2773806143 @default.
W4224881238 cites W2777860140 @default.
W4224881238 cites W2780517855 @default.
W4224881238 cites W2796618025 @default.
W4224881238 cites W2801984806 @default.
W4224881238 cites W2803062159 @default.
W4224881238 cites W2881723479 @default.
W4224881238 cites W2895127279 @default.
W4224881238 cites W2972774303 @default.
W4224881238 cites W2998444719 @default.
W4224881238 cites W3006132689 @default.
W4224881238 cites W3010894833 @default.
W4224881238 cites W3036506764 @default.
W4224881238 cites W3054846579 @default.
W4224881238 cites W3132857100 @default.
W4224881238 cites W3135817249 @default.
W4224881238 cites W3152545651 @default.
W4224881238 cites W3165779717 @default.
W4224881238 cites W3195138648 @default.
W4224881238 cites W4206607385 @default.
W4224881238 doi "https://doi.org/10.1016/j.chempr.2022.04.002" @default.
W4224881238 hasPublicationYear "2022" @default.
W4224881238 type Work @default.
W4224881238 citedByCount "11" @default.
W4224881238 countsByYear W42248812382023 @default.
W4224881238 crossrefType "journal-article" @default.
W4224881238 hasAuthorship W4224881238A5001165782 @default.
W4224881238 hasAuthorship W4224881238A5017647814 @default.
W4224881238 hasAuthorship W4224881238A5027685378 @default.
W4224881238 hasAuthorship W4224881238A5032888224 @default.
W4224881238 hasAuthorship W4224881238A5033780451 @default.