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• W3191170468 abstract "Zigzag nanoribbons of monolayer graphene-like two-dimensional materials host spontaneous edge magnetism at the zigzag terminations, whose configuration controls the band gap. In this article, the edge magnetism of zigzag nanoribbons of bilayer hexagonal crystals are studied. The specific models of bilayer graphene and bilayer silicene are both studied. As the gated voltage increases, the total energy level, magnetic structure and band structures of the ground state and the first quasi-stable excited state are tuned. For certain region of the gated voltage, the band gaps of spin up and down are opened and closed, respectively, so that the systems are in the spin-polarized metallic phase. The spin-polarized conducting edge band of the bilayer nanoribbons could be applied for gate tunable spintronic devices." @default.
• W3191170468 created "2021-08-16" @default.
• W3191170468 creator A5054148949 @default.
• W3191170468 date "2021-12-29" @default.
• W3191170468 modified "2023-10-14" @default.
• W3191170468 title "Zigzag nanoribbon of gated bilayer hexagonal crystals with spontaneous edge magnetism" @default.
• W3191170468 cites W1504531927 @default.
• W3191170468 cites W1533099719 @default.
• W3191170468 cites W1538635685 @default.
• W3191170468 cites W1576600068 @default.
• W3191170468 cites W186122707 @default.
• W3191170468 cites W1953096683 @default.
• W3191170468 cites W1957072410 @default.
• W3191170468 cites W1964526871 @default.
• W3191170468 cites W1964795364 @default.
• W3191170468 cites W1970875473 @default.
• W3191170468 cites W1971433390 @default.
• W3191170468 cites W1979580846 @default.
• W3191170468 cites W1980996852 @default.
• W3191170468 cites W1983208835 @default.
• W3191170468 cites W1983572927 @default.
• W3191170468 cites W1984795977 @default.
• W3191170468 cites W1991500549 @default.
• W3191170468 cites W1999018751 @default.
• W3191170468 cites W1999158008 @default.
• W3191170468 cites W2005786635 @default.
• W3191170468 cites W2007181607 @default.
• W3191170468 cites W2011377960 @default.
• W3191170468 cites W2016410311 @default.
• W3191170468 cites W2020863878 @default.
• W3191170468 cites W2024943930 @default.
• W3191170468 cites W2030164271 @default.
• W3191170468 cites W2030628997 @default.
• W3191170468 cites W2031308262 @default.
• W3191170468 cites W2031651460 @default.
• W3191170468 cites W2032281453 @default.
• W3191170468 cites W2032977933 @default.
• W3191170468 cites W2038094415 @default.
• W3191170468 cites W2038679007 @default.
• W3191170468 cites W2038697346 @default.
• W3191170468 cites W2042473487 @default.
• W3191170468 cites W2043554118 @default.
• W3191170468 cites W2045692511 @default.
• W3191170468 cites W2057451871 @default.
• W3191170468 cites W2060223813 @default.
• W3191170468 cites W2060597957 @default.
• W3191170468 cites W2069158820 @default.
• W3191170468 cites W2078117025 @default.
• W3191170468 cites W2079468187 @default.
• W3191170468 cites W2083287385 @default.
• W3191170468 cites W2085218273 @default.
• W3191170468 cites W2086277987 @default.
• W3191170468 cites W2089452627 @default.
• W3191170468 cites W2094597310 @default.
• W3191170468 cites W2105685140 @default.
• W3191170468 cites W2114259804 @default.
• W3191170468 cites W2116562468 @default.
• W3191170468 cites W2118368638 @default.
• W3191170468 cites W2120874483 @default.
• W3191170468 cites W2186014114 @default.
• W3191170468 cites W2198265245 @default.
• W3191170468 cites W2226356770 @default.
• W3191170468 cites W2236451977 @default.
• W3191170468 cites W2256532641 @default.
• W3191170468 cites W2374115384 @default.
• W3191170468 cites W2415156870 @default.
• W3191170468 cites W2517744486 @default.
• W3191170468 cites W2531800759 @default.
• W3191170468 cites W2578263644 @default.
• W3191170468 cites W2587490750 @default.
• W3191170468 cites W2620554655 @default.
• W3191170468 cites W2623494632 @default.
• W3191170468 cites W2725859623 @default.
• W3191170468 cites W2727098112 @default.
• W3191170468 cites W2763523553 @default.
• W3191170468 cites W2765082173 @default.
• W3191170468 cites W2882541940 @default.
• W3191170468 cites W2894335634 @default.
• W3191170468 cites W2922902594 @default.
• W3191170468 cites W2964051822 @default.
• W3191170468 cites W2974835338 @default.
• W3191170468 cites W2978383777 @default.
• W3191170468 cites W2982569550 @default.
• W3191170468 cites W3014348600 @default.
• W3191170468 cites W3015084865 @default.
• W3191170468 cites W3016705891 @default.
• W3191170468 cites W3037442560 @default.
• W3191170468 cites W3046133078 @default.
• W3191170468 cites W3048585662 @default.
• W3191170468 cites W3094947389 @default.
• W3191170468 cites W3098478483 @default.
• W3191170468 cites W3103172730 @default.
• W3191170468 cites W3105190478 @default.
• W3191170468 cites W3161005575 @default.
• W3191170468 cites W756987791 @default.
• W3191170468 cites W769830222 @default.
• W3191170468 doi "https://doi.org/10.1103/physrevb.104.235438" @default.
• W3191170468 hasPublicationYear "2021" @default.
• W3191170468 type Work @default.
• W3191170468 sameAs 3191170468 @default.

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