研究目的
To review the group's progress in graphene applications for electronic and optical devices, demonstrating its versatility and potential for actual applications.
研究成果
Graphene-based devices show great advantages in theoretical predictions and experimental applications, including high carrier mobility, gate-tunable carrier densities, ultralarge absorption bandwidth, and fast material response, demonstrating versatility in electronic and optical devices.
研究不足
The paper is a review and does not specify experimental limitations; it focuses on summarizing existing work without detailing constraints or optimization areas.
1:Experimental Design and Method Selection:
The paper reviews theoretical and experimental studies on graphene-based devices, including design of artificial structures, plasmonic materials, and waveguide configurations.
2:Sample Selection and Data Sources:
Graphene samples and structures such as ribbons, lenses, and metasurfaces are used, with data from simulations and experiments.
3:List of Experimental Equipment and Materials:
Graphene sheets, dielectric coatings, substrates, and electronic/optical measurement setups are implied but not specified.
4:Experimental Procedures and Operational Workflow:
Involves designing and fabricating graphene devices, applying bias voltages, and measuring electromagnetic wave manipulation.
5:Data Analysis Methods:
Analysis includes theoretical modeling and experimental verification of device performance.
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