Substrate-induced bandgap opening in epitaxial graphene.
about
Graphene: The Missing Piece for Cancer Diagnosis?Sublattice asymmetry of impurity doping in graphene: A reviewDirac Cones and Minigaps for Graphene on Ir(111)Experimental Evidence for Epitaxial Silicene on Diboride Thin FilmsQuantum oscillations and quantum Hall effect in epitaxial grapheneGraphyne: Hexagonal network of carbon with versatile Dirac conesTunable electronic and magnetic properties of two-dimensional materials and their one-dimensional derivatives.Chemical Modification of Graphene Oxide by Nitrogenation: An X-ray Absorption and Emission Spectroscopy StudyStacking sequence and interlayer coupling in few-layer graphene revealed by in situ imaging.Coulomb excitations of monolayer germaneneSub-10 nm gate length graphene transistors: operating at terahertz frequencies with current saturation.Gap modification of atomically thin boron nitride by phonon mediated interactions.Enhanced Photocatalytic Activity of WS2 Film by Laser Drilling to Produce Porous WS2/WO3 HeterostructureTuning electronic and magnetic properties of partially hydrogenated graphene by biaxial tensile strain: a computational study.Valley-selective circular dichroism of monolayer molybdenum disulphide.Spontaneous and strong multi-layer graphene n-doping on soda-lime glass and its application in graphene-semiconductor junctions.Enhanced superconductivity in atomically thin TaS2.Correlation between micrometer-scale ripple alignment and atomic-scale crystallographic orientation of monolayer grapheneCoexistence of metallic and insulating-like states in graphene.Large area and structured epitaxial graphene produced by confinement controlled sublimation of silicon carbideFirst-principles study of half-metallicity in semi-hydrogenated BC3, BC5, BC7, and B-doped graphone sheets.Anomalous spectral features of a neutral bilayer graphene.Density functional theory calculations on graphene/α-SiO2(0001) interface.Invited Article: High resolution angle resolved photoemission with tabletop 11 eV laser.Role of C-N Configurations in the Photoluminescence of Graphene Quantum Dots Synthesized by a Hydrothermal Route.Two-dimensional B-C-O alloys: a promising class of 2D materials for electronic devices.Tunable Valley Polarization and Valley Orbital Magnetic Moment Hall Effect in Honeycomb Systems with Broken Inversion Symmetry.Topological Bloch bands in graphene superlattices.2D Materials for Optical Modulation: Challenges and Opportunities.Engineering the interlayer exchange coupling in magnetic trilayers.Single Layer Bismuth Iodide: Computational Exploration of Structural, Electrical, Mechanical and Optical Properties.Symmetry induced semimetal-semiconductor transition in doped graphene.Magnetic effects in sulfur-decorated graphene.Selectively enhanced photocurrent generation in twisted bilayer graphene with van Hove singularity.Bandgap opening by patterning graphene.Fine tuning of graphene-metal adhesion by surface alloyingExploring electronic structure of one-atom thick polycrystalline graphene films: a nano angle resolved photoemission study.Graphene-multiferroic interfaces for spintronics applications.Designing Quantum Spin-Orbital Liquids in Artificial Mott InsulatorsOpening and reversible control of a wide energy gap in uniform monolayer graphene
P2860
Q26775114-1A283672-EC8E-4040-BA8E-4AAB98A15E57Q26827151-27FE8FC0-4E1A-4D4D-8012-9D8E6730D178Q27335938-AABB2547-CC74-4368-B5BF-51AC7D82F9BAQ27335975-97F6E232-EF8E-4BC0-B182-FB9D96854B02Q27348707-567DB161-97DF-47EF-B144-440AC35AB7B2Q27350441-C3E52D2D-CB59-49AA-B276-3992EDDBC35AQ28070228-D094516A-DCA9-48B4-ADA2-26A33DBEFEFDQ28817042-59610568-7116-4230-AF68-BFE54BCD64B9Q28821270-201F7858-4EF9-4132-8F14-35C8AF191E28Q30365472-B5D38BF6-441A-43D6-B468-65C2F205E333Q30458171-F7ED6487-DB6E-4FCD-A30B-270D2FF7BD74Q30460047-F265B517-02A8-46E2-A7A0-160C4EAB1587Q33784429-E25F8746-EEF7-4605-831F-71998FCC6EB9Q34203530-C09EB2D2-26D4-4E2F-AB41-56D279C9783AQ34279416-56226A75-CC02-48D3-B6E5-FD95F2A2D4A1Q34513576-23734854-86AA-4F93-9F80-8781F73FB62EQ34518543-73163972-7994-4793-ADBC-47B048B6855BQ34590125-068FD863-11AD-4565-8E9B-54E92E263A07Q35160422-3E2FF888-29B6-4D4B-AB5E-88DCAF9869BCQ35346039-E0A25BDA-1FEB-4B48-AFD2-AB62BB8BC3FAQ35536669-880ADB28-E9F1-41A6-8EFB-0FD76E44CFB4Q35617181-104D4885-F110-45E6-AA16-61D570AD75AFQ35834126-87295C05-533D-4694-B4FA-35DD9CAE3640Q35909030-0FE0E494-453B-4DE5-AAC3-A9D95A7382DEQ35923562-FA3E58F9-F972-421E-B3E2-EE9978C53BC8Q35987695-3E38B4D1-21C1-41DB-B7DD-3595E52C1A18Q36049364-4AEAC9BE-C51B-4604-9200-4B7E5BBD5130Q36055690-5D14F71E-1107-4506-8145-C7EB8C993FCDQ36285945-2BC3712F-4C96-4715-8720-C7B09F5A5885Q36310188-2E808802-D054-4A0C-B1B2-C0EBC89A8DD3Q36340030-37CE7E97-CF18-4350-A106-EF69250993A6Q36500222-2D9C39F8-3986-4B44-B7E0-7B6ED2184FC1Q36591382-BA91B389-860F-407D-997B-0EA7259915C8Q36674460-9299EBF6-E656-4F5E-8DBC-553594E9A399Q37046964-8464A298-38A0-4074-86C3-7006497258E5Q37090456-EA0E5A02-D606-4D6C-BF4D-98FD23DF873EQ37094335-9621834F-4C89-4F18-B249-FD7677B62FD2Q37195467-B1D6C713-5222-456A-A2D1-2DFBCAAA2959Q37198819-E43C3D16-31E4-4FCD-974F-EA1A795A2970Q37219972-7A22CB67-3FBE-42D6-B771-25CA6964DA11
P2860
Substrate-induced bandgap opening in epitaxial graphene.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Substrate-induced bandgap opening in epitaxial graphene.
@en
Substrate-induced bandgap opening in epitaxial graphene.
@nl
type
label
Substrate-induced bandgap opening in epitaxial graphene.
@en
Substrate-induced bandgap opening in epitaxial graphene.
@nl
prefLabel
Substrate-induced bandgap opening in epitaxial graphene.
@en
Substrate-induced bandgap opening in epitaxial graphene.
@nl
P2093
P356
P1433
P1476
Substrate-induced bandgap opening in epitaxial graphene.
@en
P2093
Fedorov AV
de Heer WA
P2888
P304
P356
10.1038/NMAT2003
P407
P577
2007-09-09T00:00:00Z