SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2097683352> ?p ?o ?g. }

Showing items 1 to 100 of ±165 with 100 items per page.

W2097683352 endingPage "3046" @default.
W2097683352 startingPage "3046" @default.
W2097683352 abstract "The properties of graphene strongly depend on its thickness. It is important to understand the graphene–metal interaction to control its thickness during its growth on metal surfaces. Here, we used the DFT-D2 method of Grimme, which includes the critical long-range van der Waals forces in the graphene–metal interaction, to study the interfaces between mono-, bi-, and trilayer graphene and Cu and Ni (111) surfaces. Our results show the adsorption energy increases with the increase of graphene layers on Ni (111); in contrast, it decreases on Cu (111). Charge density and partial density of states analyses show that monolayer graphene adsorbed on Ni (111) is more reactive than that on Cu (111). Another graphene layer can be easily formed on top of monolayer or bilayer graphene adsorbed on Ni (111); but not on Cu (111). These findings provide a useful guide for achieving precise layer controlled graphene growth and designing graphene based devices." @default.
W2097683352 created "2016-06-24" @default.
W2097683352 creator A5003289867 @default.
W2097683352 creator A5019065325 @default.
W2097683352 creator A5022059632 @default.
W2097683352 creator A5065117799 @default.
W2097683352 creator A5088343755 @default.
W2097683352 date "2013-01-01" @default.
W2097683352 modified "2023-10-16" @default.
W2097683352 title "Graphene layers on Cu and Ni (111) surfaces in layer controlled graphene growth" @default.
W2097683352 cites W1970127494 @default.
W2097683352 cites W1973288620 @default.
W2097683352 cites W1974025613 @default.
W2097683352 cites W1974899246 @default.
W2097683352 cites W1979544533 @default.
W2097683352 cites W1981368803 @default.
W2097683352 cites W1981604256 @default.
W2097683352 cites W1991859775 @default.
W2097683352 cites W1994885909 @default.
W2097683352 cites W1996771844 @default.
W2097683352 cites W2001411417 @default.
W2097683352 cites W2005815052 @default.
W2097683352 cites W2007806333 @default.
W2097683352 cites W2018471238 @default.
W2097683352 cites W2018843275 @default.
W2097683352 cites W2022085321 @default.
W2097683352 cites W2030273590 @default.
W2097683352 cites W2035930650 @default.
W2097683352 cites W2040419312 @default.
W2097683352 cites W2042664346 @default.
W2097683352 cites W2044591029 @default.
W2097683352 cites W2046148813 @default.
W2097683352 cites W2047937197 @default.
W2097683352 cites W2052637367 @default.
W2097683352 cites W2052867835 @default.
W2097683352 cites W2055413753 @default.
W2097683352 cites W2057936436 @default.
W2097683352 cites W2078073636 @default.
W2097683352 cites W2082868237 @default.
W2097683352 cites W2083222334 @default.
W2097683352 cites W2087934785 @default.
W2097683352 cites W2094380530 @default.
W2097683352 cites W2096219631 @default.
W2097683352 cites W2104281113 @default.
W2097683352 cites W2106298613 @default.
W2097683352 cites W2117463343 @default.
W2097683352 cites W2119607070 @default.
W2097683352 cites W2123510746 @default.
W2097683352 cites W2124096933 @default.
W2097683352 cites W2124209259 @default.
W2097683352 cites W2134212781 @default.
W2097683352 cites W2141992264 @default.
W2097683352 cites W2143161893 @default.
W2097683352 cites W2146564548 @default.
W2097683352 cites W2148144129 @default.
W2097683352 cites W2160144694 @default.
W2097683352 cites W2165043147 @default.
W2097683352 cites W2278573177 @default.
W2097683352 cites W2312331839 @default.
W2097683352 cites W2314519173 @default.
W2097683352 cites W2317787566 @default.
W2097683352 cites W2319698947 @default.
W2097683352 cites W2320109960 @default.
W2097683352 cites W2320442382 @default.
W2097683352 cites W2324296811 @default.
W2097683352 cites W2324687660 @default.
W2097683352 cites W2329587901 @default.
W2097683352 cites W2334884404 @default.
W2097683352 cites W2963811352 @default.
W2097683352 cites W2995087858 @default.
W2097683352 cites W3099382759 @default.
W2097683352 cites W3102020453 @default.
W2097683352 cites W3104672278 @default.
W2097683352 doi "https://doi.org/10.1039/c2ra23105k" @default.
W2097683352 hasPublicationYear "2013" @default.
W2097683352 type Work @default.
W2097683352 sameAs 2097683352 @default.
W2097683352 citedByCount "34" @default.
W2097683352 countsByYear W20976833522014 @default.
W2097683352 countsByYear W20976833522015 @default.
W2097683352 countsByYear W20976833522016 @default.
W2097683352 countsByYear W20976833522017 @default.
W2097683352 countsByYear W20976833522018 @default.
W2097683352 countsByYear W20976833522019 @default.
W2097683352 countsByYear W20976833522020 @default.
W2097683352 countsByYear W20976833522021 @default.
W2097683352 countsByYear W20976833522022 @default.
W2097683352 countsByYear W20976833522023 @default.
W2097683352 crossrefType "journal-article" @default.
W2097683352 hasAuthorship W2097683352A5003289867 @default.
W2097683352 hasAuthorship W2097683352A5019065325 @default.
W2097683352 hasAuthorship W2097683352A5022059632 @default.
W2097683352 hasAuthorship W2097683352A5065117799 @default.
W2097683352 hasAuthorship W2097683352A5088343755 @default.
W2097683352 hasConcept C10777958 @default.
W2097683352 hasConcept C126061179 @default.
W2097683352 hasConcept C127413603 @default.
W2097683352 hasConcept C140807948 @default.