Add to ORKGABSTRACT: Carbon diffusion barriers are introduced as a general and simple method to prevent premature carbon dissolution and thereby to significantly improve graphene formation from the catalytic transformation of solid carbon sources. A thin Al2O3 barrier inserted into an amorphous-C/Ni bilayer stack is demonstrated to enable growth of uniform monolayer graphene at 600 °C with domain sizes exceeding 50 μm, and an average Raman D/G ratio of <0.07. A detailed growth rationale is established via in situ measurements, relevant to solid-state growth of a wide range of layered materials, as well as layer-by-layer control in these systems
Here, we reveal the growth process of single and few-layer graphene crystals in the solid carbon sou...
This thesis is composed of a review on the rapidly growing field of graphene research and an experim...
A method to grow multi layers graphene (MLG) just by thermal annealing in an inert atmosphere is re...
Carbon diffusion barriers are introduced as a general and simple method to prevent premature carbon ...
Carbon diffusion barriers are introduced as a general and simple method to prevent premature carbon ...
Carbon diffusion barriers are introduced as a general and simple method to prevent premature carbon ...
Graphene can be synthesized via metal catalysis using solid carbon source. In this paper, graphene w...
A new method for growth of large-area graphene, which can lead to a scalable low-cost high-throughpu...
Low-temperature (∼600 °C), scalable chemical vapor deposition of high-quality, uniform monolayer gra...
We have demonstrated a new method for the large-area graphene growth, which can lead to a scalable l...
The diffusion processes and kinetic barriers of individual carbon adatoms and clusters on graphene s...
We demonstrate a simple approach to grow graphene films on polycrystalline nickel (Ni) foils, in whi...
Growth of high quality graphene is the basis for the successful demonstration and reduction to pract...
Low-temperature (∼600 °C), scalable chemical vapor deposition of high-quality, uniform monolayer gra...
The segregation of carbon from metals in which carbon is highly soluble, such as Ni (approximate to ...
Here, we reveal the growth process of single and few-layer graphene crystals in the solid carbon sou...
This thesis is composed of a review on the rapidly growing field of graphene research and an experim...
A method to grow multi layers graphene (MLG) just by thermal annealing in an inert atmosphere is re...
Carbon diffusion barriers are introduced as a general and simple method to prevent premature carbon ...
Carbon diffusion barriers are introduced as a general and simple method to prevent premature carbon ...
Carbon diffusion barriers are introduced as a general and simple method to prevent premature carbon ...
Graphene can be synthesized via metal catalysis using solid carbon source. In this paper, graphene w...
A new method for growth of large-area graphene, which can lead to a scalable low-cost high-throughpu...
Low-temperature (∼600 °C), scalable chemical vapor deposition of high-quality, uniform monolayer gra...
We have demonstrated a new method for the large-area graphene growth, which can lead to a scalable l...
The diffusion processes and kinetic barriers of individual carbon adatoms and clusters on graphene s...
We demonstrate a simple approach to grow graphene films on polycrystalline nickel (Ni) foils, in whi...
Growth of high quality graphene is the basis for the successful demonstration and reduction to pract...
Low-temperature (∼600 °C), scalable chemical vapor deposition of high-quality, uniform monolayer gra...
The segregation of carbon from metals in which carbon is highly soluble, such as Ni (approximate to ...
Here, we reveal the growth process of single and few-layer graphene crystals in the solid carbon sou...
This thesis is composed of a review on the rapidly growing field of graphene research and an experim...
A method to grow multi layers graphene (MLG) just by thermal annealing in an inert atmosphere is re...