SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2892841229> ?p ?o ?g. }

Showing items 1 to 100 of ±169 with 100 items per page.

W2892841229 endingPage "347" @default.
W2892841229 startingPage "339" @default.
W2892841229 abstract "The freedom of interlayer spin arrangement could emerge when assembling small-sized graphene-based nanostructures through stacking. Its possible influence on interlayer vibrations could be significant for developing Raman probes towards small complexes and device design involving intermolecular vibronic process. In this paper, using density-functional-theory calculations on bilayer and trilayer rhombic graphene fragments, we compare finite-size analogues to interlayer shear and breathing modes regarding to ferromagnetic and antiferromagnetic interlayer spin arrangements. For bilayer units, the antiferromagnetic configuration further separate two shear mode components by around 10 cm−1, inducing a further Raman peak splitting. This response is robust regarding to slightly enlarging the fragment and increasing layer number to three. Layer breathing mode is spin-arrangement robust in bilayers but show different arrangement-sensitivity in ABA-like and ABC-like trilayers. Visualization of interface electron density reveals the dependence of anisotropic interface environment to interlayer spin arrangement and unambiguously correlates the arrangement style with shearing responses. Further application of this analysis clarifies the arrangement-based phase-cooperation in trilayer shearing. Results and analysis in this work may contribute to the characterization and design of graphene-based nanostructures as well as understanding the interfacial nature beneath their intermolecular varieties in dynamic processes." @default.
W2892841229 created "2018-10-05" @default.
W2892841229 creator A5033115628 @default.
W2892841229 creator A5054352845 @default.
W2892841229 creator A5070812231 @default.
W2892841229 date "2019-01-01" @default.
W2892841229 modified "2023-10-16" @default.
W2892841229 title "Dependence of characteristic interlayer vibration modes on interlayer spin arrangement in stacked graphene nanofragments" @default.
W2892841229 cites W1502673782 @default.
W2892841229 cites W1528466633 @default.
W2892841229 cites W1535106284 @default.
W2892841229 cites W1544981284 @default.
W2892841229 cites W1561394228 @default.
W2892841229 cites W1795625810 @default.
W2892841229 cites W1967440083 @default.
W2892841229 cites W1968520183 @default.
W2892841229 cites W1970740424 @default.
W2892841229 cites W1972295548 @default.
W2892841229 cites W1978903117 @default.
W2892841229 cites W1980652391 @default.
W2892841229 cites W1981368803 @default.
W2892841229 cites W1983170867 @default.
W2892841229 cites W1983327991 @default.
W2892841229 cites W1999570615 @default.
W2892841229 cites W2000043459 @default.
W2892841229 cites W2005144366 @default.
W2892841229 cites W2005937895 @default.
W2892841229 cites W2008423326 @default.
W2892841229 cites W2010792827 @default.
W2892841229 cites W2011289710 @default.
W2892841229 cites W2011350333 @default.
W2892841229 cites W2017611256 @default.
W2892841229 cites W2017680718 @default.
W2892841229 cites W2020259659 @default.
W2892841229 cites W2021402360 @default.
W2892841229 cites W2023271753 @default.
W2892841229 cites W2023333002 @default.
W2892841229 cites W2027537320 @default.
W2892841229 cites W2032572765 @default.
W2892841229 cites W2038697346 @default.
W2892841229 cites W2039396569 @default.
W2892841229 cites W2043633210 @default.
W2892841229 cites W2047584911 @default.
W2892841229 cites W2054127826 @default.
W2892841229 cites W2055481976 @default.
W2892841229 cites W2062754019 @default.
W2892841229 cites W2063170663 @default.
W2892841229 cites W2069521837 @default.
W2892841229 cites W2074019461 @default.
W2892841229 cites W2074880343 @default.
W2892841229 cites W2078467509 @default.
W2892841229 cites W2082021536 @default.
W2892841229 cites W2086957099 @default.
W2892841229 cites W2087497057 @default.
W2892841229 cites W2089535058 @default.
W2892841229 cites W2089685944 @default.
W2892841229 cites W2092153855 @default.
W2892841229 cites W2092157292 @default.
W2892841229 cites W2093522856 @default.
W2892841229 cites W2096215502 @default.
W2892841229 cites W2100841124 @default.
W2892841229 cites W2104919283 @default.
W2892841229 cites W2108518650 @default.
W2892841229 cites W2116238007 @default.
W2892841229 cites W2120795340 @default.
W2892841229 cites W2130660680 @default.
W2892841229 cites W2132525235 @default.
W2892841229 cites W2135564530 @default.
W2892841229 cites W2139641211 @default.
W2892841229 cites W2141260394 @default.
W2892841229 cites W2141526152 @default.
W2892841229 cites W2143981217 @default.
W2892841229 cites W2154758254 @default.
W2892841229 cites W2162273722 @default.
W2892841229 cites W2183916218 @default.
W2892841229 cites W2266584442 @default.
W2892841229 cites W2286434759 @default.
W2892841229 cites W2311478132 @default.
W2892841229 cites W2317483458 @default.
W2892841229 cites W2321624936 @default.
W2892841229 cites W2331460309 @default.
W2892841229 cites W2331948180 @default.
W2892841229 cites W2342206209 @default.
W2892841229 cites W2403310197 @default.
W2892841229 cites W2412267148 @default.
W2892841229 cites W2414884140 @default.
W2892841229 cites W2474222028 @default.
W2892841229 cites W2512465788 @default.
W2892841229 cites W2567896191 @default.
W2892841229 cites W2616284246 @default.
W2892841229 cites W2729741397 @default.
W2892841229 cites W2730474021 @default.
W2892841229 cites W2765915551 @default.
W2892841229 cites W2784368966 @default.
W2892841229 cites W3100991536 @default.
W2892841229 cites W4211265508 @default.
W2892841229 cites W627635887 @default.
W2892841229 doi "https://doi.org/10.1016/j.carbon.2018.09.069" @default.