Graphene

Graphene

ISSN Print: 2169-3439
ISSN Online: 2169-3471
www.scirp.org/journal/graphene
E-mail: graphene@scirp.org
"Ytterbium Intercalation of Epitaxial Graphene Grown on Si-Face SiC"
written by Somsakul Watcharinyanon, Leif I. Johansson, Chao Xia, Jan Ingo Flege, Axel Meyer, Jens Falta, Chariya Virojanadara,
published by Graphene, Vol.2 No.2, 2013
has been cited by the following article(s):
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[1] Highly Asymmetric Graphene Layer Doping and Band Structure Manipulation in Rare Earth–Graphene Heterostructure by Targeted Bonding of the Intercalated …
The Journal of …, 2022
[2] π Band Folding and Interlayer Band Filling of Graphene upon Interface Potassium Intercalation
Advanced Materials …, 2022
[3] Electronic and Magnetic Properties of The Graphene/RE/Ni (111)(RE: La, Yb) Intercalation‐Like Interfaces: A DFT Analysis
Advanced Theory …, 2022
[4] Magnesium-intercalated graphene on SiC: Highly n-doped air-stable bilayer graphene at extreme displacement fields
2021
[5] Low-Temperature Growth of Graphene on a Semiconductor
2021
[6] Manipulation of electronic property of epitaxial graphene on SiC substrate by Pb intercalation
2021
[7] Mechanism of Metal Intercalation under Graphene through Small Vacancy Defects
2021
[8] Electronic structure of double-layer epitaxial graphene on SiC (0001) modified by Gd intercalation
2020
[9] Электронно-стимулированная десорбция атомов цезия с графена на иридии, интеркалированного и не интеркалированого цезием
2019
[10] Topological band gap in intercalated epitaxial graphene
2019
[11] Tuning the doping level of graphene in the vicinity of the Van Hove singularity via ytterbium intercalation
2019
[12] Features and Prospects for Epitaxial Graphene on SiC
2019
[13] Electron-Stimulated Desorption of Cesium Atoms from Graphene to Iridium Intercalated and not Intercalated with Cesium
2019
[14] ВЛИЯНИЕ ТЕМПЕРАТУРЫ НА ЭЛЕКТРОННО-СТИМУЛИРОВАННУЮ ДЕСОРБЦИЮ АТОМОВ ЦЕЗИЯ С ГРАФЕНА НА ИРИДИИ
2018
[15] Highly -doped graphene generated through intercalated terbium atoms
Physical Review B, 2018
[16] The chemistry of CVD graphene
Journal of Materials Chemistry C, 2018
[17] Variable range hopping conduction in the epitaxial graphene buffer layer on SiC (0001)
2018
[18] Functionalization of 2D materials by intercalation
Progress in Surface Science, 2018
[19] Metal-dielectric transition in Sn-intercalated graphene on SiC (0001)
Ultramicroscopy, 2017
[20] Manipulation of Dirac cones in intercalated epitaxial graphene
Carbon, 2017
[21] Origin of ambipolar graphene doping induced by the ordered Ge film intercalated on SiC (0001)
Carbon, 2016
[22] Noble-metal intercalation process leading to a protected adatom in a graphene hollow site
Physical Review B, 2016
[23] Intercalation of graphene on iridium with samarium atoms
Physics of the Solid State, 2016
[24] Room temperature deintercalation of alkali metal atoms from epitaxial graphene by formation of charge-transfer complexes
2016
[25] Some Like it Flat: Decoupled h-BN Monolayer Substrates for Aligned Graphene Growth
ACS Nano, 2016
[26] Modification of thermal and electronic properties of bilayer graphene by using slow Na+ ions
Nanotechnology, 2016
[27] Combining graphene with silicon carbide: synthesis and properties–a review
Semiconductor Science and Technology, 2016
[28] Интеркалирование графена на иридии атомами самария
2016
[29] Bifunctional effects of the ordered Si atoms intercalated between quasi-free-standing epitaxial graphene and SiC (0001): graphene doping and substrate band …
New Journal of Physics, 2015
[30] Bifunctional effects of the ordered Si atoms intercalated between quasi-free-standing epitaxial graphene and SiC (0001): graphene doping and substrate band …
2015
[31] Bifunctional effects of the ordered Si atoms intercalated between quasi-free-standing epitaxial graphene and SiC (0001): graphene doping and substrate band bending
New Journal of Physics, 2015
[32] Ytterbium-driven strong enhancement of electron-phonon coupling in graphene
Physical Review B, 2014
[33] Electronic and magnetic properties of the graphene/Eu/Ni (111) hybrid system
arXiv preprint arXiv:1407.4389, 2014
[34] Ytterbium oxide formation at the graphene–SiC interface studied by photoemission
Journal of Vacuum Science & Technology A?, 2013
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