When graphene is placed on a crystalline surface, the periodic structures within the layers superimpose and moiré superlattices form. Small lattice rotations between the two materials in contact strongly modify the moiré lattice parameter, upon which many electronic, vibrational, and chemical properties depend. While precise adjustment of the relative orientation in the degree- and sub-degree-range can be achieved via careful deterministic transfer of graphene, we report on the spontaneous reorientation of graphene on a metallic substrate, Ir(111). We find that selecting a substrate temperature between 1530 and 1000 K during the growth of graphene leads to distinct relative rotational angles of 0°, ± 0.6°, ±1.1°, and ±1.7°. When modeling th...
4siMoiré superstructures are common for epitaxial graphene on transition metal surfaces and can stro...
International audienceThe morphology of graphene monolayers on Ir(111) prepared by thermal decomposi...
International audienceThe effects of the temperature on the structure of a single layer of graphene ...
When graphene is placed on a crystalline surface, the periodic structures within the layers superimp...
Graphene films grown by vapour deposition tend to be polycrystalline due to the nucleation and growt...
Graphene films grown by vapour deposition tend to be polycrystalline due to the nucleation and growt...
The moire superstructure of graphene on a lattice-mismatched metal substrate has profound effects on...
Understanding the fundamental mechanisms that control van der Waals epitaxy of two-dimensional layer...
Using low-energy electron microscopy, we find that the mechanisms of graphene growth on Ir(111) depe...
In order to unravel the complex interplay between substrate interactions and film configuration, we ...
In this Letter, we report the observation of thermally induced rotation of graphene on hexagonal bor...
© 2022 American Chemical Society. All rights reserved.Control of the stacking angle (θS) of bilayer ...
The authors present a new analytical method to determine the most important two parameters, rotation...
As a two-dimensional material, graphene can be obtained via epitaxial growth on a suitable substrate...
The growth and the structure of epitaxial graphene on Ir(111) and its use as a template for metal cl...
4siMoiré superstructures are common for epitaxial graphene on transition metal surfaces and can stro...
International audienceThe morphology of graphene monolayers on Ir(111) prepared by thermal decomposi...
International audienceThe effects of the temperature on the structure of a single layer of graphene ...
When graphene is placed on a crystalline surface, the periodic structures within the layers superimp...
Graphene films grown by vapour deposition tend to be polycrystalline due to the nucleation and growt...
Graphene films grown by vapour deposition tend to be polycrystalline due to the nucleation and growt...
The moire superstructure of graphene on a lattice-mismatched metal substrate has profound effects on...
Understanding the fundamental mechanisms that control van der Waals epitaxy of two-dimensional layer...
Using low-energy electron microscopy, we find that the mechanisms of graphene growth on Ir(111) depe...
In order to unravel the complex interplay between substrate interactions and film configuration, we ...
In this Letter, we report the observation of thermally induced rotation of graphene on hexagonal bor...
© 2022 American Chemical Society. All rights reserved.Control of the stacking angle (θS) of bilayer ...
The authors present a new analytical method to determine the most important two parameters, rotation...
As a two-dimensional material, graphene can be obtained via epitaxial growth on a suitable substrate...
The growth and the structure of epitaxial graphene on Ir(111) and its use as a template for metal cl...
4siMoiré superstructures are common for epitaxial graphene on transition metal surfaces and can stro...
International audienceThe morphology of graphene monolayers on Ir(111) prepared by thermal decomposi...
International audienceThe effects of the temperature on the structure of a single layer of graphene ...
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