Add to ORKGThe transfer-free synthesis of high-quality, large-area graphene on a given dielectric substrate, which is highly desirable for device applications, remains a significant challenge. In this paper, we report on a simple rapid thermal treatment (RTT) method for the fast and direct growth of high-quality, large-scale monolayer graphene on a SiO2/Si substrate from solid carbon sources. The stack structure of a solid carbon layer/copper film/SiO2 is adopted in the RTT process. The inserted copper film does not only act as an active catalyst for the carbon precursor but also serves as a "filter" that prevents premature carbon dissolution, and thus, contributes to graphene growth on SiO2/Si. The produced graphene exhibits a high carrier mobility o...
Large-area synthesis of high-quality graphene by chemical vapour deposition on metallic substrates r...
Graphene intrinsically hosts charge-carriers with ultrahigh mobility and possesses a high quantum ca...
Large-area synthesis of high-quality graphene by chemical vapour deposition on metallic substrates r...
Large-area graphene films are best synthesized via chemical vapour and/or solid deposition methods a...
Large-area graphene films are best synthesized via chemical vapour and/or solid deposition methods a...
Synthesizing graphene at a large-scale and of high quality on insulating substrate is a prerequisite...
As the first discovered two-dimensional (2D) crystal, graphene has wide applications in electronic a...
As the first discovered two-dimensional (2D) crystal, graphene has wide applications in electronic a...
AbstractHere we demonstrate the growth of transfer-free graphene on SiO2 insulator substrates from s...
Low-temperature growth, as well as the transfer free growth on substrates, is the major concern of g...
Synthesizing high-quality graphene by catalytic transformation from amorphous silicon carbide (a-SiC...
Growth and characterization of graphene grown using copper foils as well as copper films on silicon ...
Growth and characterization of graphene grown using copper foils as well as copper films on silicon ...
AbstractHere we demonstrate the growth of transfer-free graphene on SiO2 insulator substrates from s...
Growth and characterization of graphene grown using copper foils as well as copper films on silicon ...
Large-area synthesis of high-quality graphene by chemical vapour deposition on metallic substrates r...
Graphene intrinsically hosts charge-carriers with ultrahigh mobility and possesses a high quantum ca...
Large-area synthesis of high-quality graphene by chemical vapour deposition on metallic substrates r...
Large-area graphene films are best synthesized via chemical vapour and/or solid deposition methods a...
Large-area graphene films are best synthesized via chemical vapour and/or solid deposition methods a...
Synthesizing graphene at a large-scale and of high quality on insulating substrate is a prerequisite...
As the first discovered two-dimensional (2D) crystal, graphene has wide applications in electronic a...
As the first discovered two-dimensional (2D) crystal, graphene has wide applications in electronic a...
AbstractHere we demonstrate the growth of transfer-free graphene on SiO2 insulator substrates from s...
Low-temperature growth, as well as the transfer free growth on substrates, is the major concern of g...
Synthesizing high-quality graphene by catalytic transformation from amorphous silicon carbide (a-SiC...
Growth and characterization of graphene grown using copper foils as well as copper films on silicon ...
Growth and characterization of graphene grown using copper foils as well as copper films on silicon ...
AbstractHere we demonstrate the growth of transfer-free graphene on SiO2 insulator substrates from s...
Growth and characterization of graphene grown using copper foils as well as copper films on silicon ...
Large-area synthesis of high-quality graphene by chemical vapour deposition on metallic substrates r...
Graphene intrinsically hosts charge-carriers with ultrahigh mobility and possesses a high quantum ca...
Large-area synthesis of high-quality graphene by chemical vapour deposition on metallic substrates r...