Related references
Note: Only part of the references are listed.Insulating SiO2 under Centimeter-Scale, Single-Crystal Graphene Enables Electronic-Device Fabrication
Hui Guo et al.
NANO LETTERS (2020)
Graphene as an Ideal Buffer Layer for the Growth of High-Quality Ultrathin Cr2O3 Layers on Ni(111)
Alessandro Lodesani et al.
ACS NANO (2019)
Growth and Stability of Titanium Dioxide Nanoclusters on Graphene/Ru(0001)
Ryan T. Frederick et al.
JOURNAL OF PHYSICAL CHEMISTRY B (2018)
Spin-Resolved PES and IPES Investigation of the Graphene/Ni(111) Interface
Madan S. Jagadeesh et al.
PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS (2018)
Unraveling the Atomic Structure of Fe Intercalated under Graphene on Ir(111): A Multitechnique Approach
Rodrigo Cezar de Campos Ferreira et al.
CHEMISTRY OF MATERIALS (2018)
Electric-field control of magnetism in graphene on chromia
R. Choudhary et al.
JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS (2017)
Intercalation from the Depths: Growth of a Metastable Chromium Carbide between Epitaxial Graphene and Ni(111) by Carbon Segregation from the Bulk
A. Picone et al.
JOURNAL OF PHYSICAL CHEMISTRY C (2017)
Direct Measurement of the Surface Energy of Graphene
Christian D. van Engers et al.
NANO LETTERS (2017)
Decoupling of graphene from Ni(111) via formation of an interfacial NiO layer
Yuriy Dedkov et al.
CARBON (2017)
Strong interfacial exchange field in the graphene/EuS heterostructure
Peng Wei et al.
NATURE MATERIALS (2016)
2D materials and van der Waals heterostructures
K. S. Novoselov et al.
SCIENCE (2016)
Switchable graphene-substrate coupling through formation/dissolution of an intercalated Ni-carbide layer
Cristina Africh et al.
SCIENTIFIC REPORTS (2016)
Cerium Oxide Nanoclusters on Graphene/Ru (0001): Intercalation of Oxygen via Spillover
Zbynek Novotny et al.
ACS NANO (2015)
Role of Cooperative Interactions in the Intercalation of Heteroatoms between Graphene and a Metal Substrate
Geng Li et al.
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2015)
Growth from behind: Intercalation-growth of two-dimensional FeO moire structure underneath of metal-supported graphene
Arjun Dahal et al.
SCIENTIFIC REPORTS (2015)
Bottom-up approach for the low-cost synthesis of graphene-alumina nanosheet interfaces using bimetallic alloys
Luca Omiciuolo et al.
NATURE COMMUNICATIONS (2014)
In Situ Observations of the Atomistic Mechanisms of Ni Catalyzed Low Temperature Graphene Growth
Laerte L. Patera et al.
ACS NANO (2013)
Growth of a two-dimensional dielectric monolayer on quasi-freestanding graphene
Rafik Addou et al.
NATURE NANOTECHNOLOGY (2013)
Transfer-Free Electrical Insulation of Epitaxial Graphene from its Metal Substrate
Silvano Lizzit et al.
NANO LETTERS (2012)
Graphene on metallic surfaces: problems and perspectives
Elena Voloshina et al.
PHYSICAL CHEMISTRY CHEMICAL PHYSICS (2012)
Field-Effect Tunneling Transistor Based on Vertical Graphene Heterostructures
L. Britnell et al.
SCIENCE (2012)
Structural and electronic properties of the graphene/Al/Ni(111) intercalation system
E. N. Voloshina et al.
NEW JOURNAL OF PHYSICS (2011)
Structural and electronic properties of Fe3O4/graphene/Ni(111) junctions
Yu S. Dedkov et al.
PHYSICA STATUS SOLIDI-RAPID RESEARCH LETTERS (2011)
Graphene and Graphene Oxide: Synthesis, Properties, and Applications
Yanwu Zhu et al.
ADVANCED MATERIALS (2010)
Electronic and magnetic properties of the graphene-ferromagnet interface
Yu S. Dedkov et al.
NEW JOURNAL OF PHYSICS (2010)
Electronic spin transport in graphene field-effect transistors
M. Popinciuc et al.
PHYSICAL REVIEW B (2009)
The electronic properties of graphene
A. H. Castro Neto et al.
REVIEWS OF MODERN PHYSICS (2009)
Spin field effect transistor with a graphene channel
Y. G. Semenov et al.
APPLIED PHYSICS LETTERS (2007)
Electric field effect in atomically thin carbon films
KS Novoselov et al.
SCIENCE (2004)
Formation of a new type of chromium oxide by deposition of chromium onto water precovered Cu(111)
J Pantförder et al.
SURFACE SCIENCE (2001)
Share Paper
