研究目的
To highlight recent progresses in 2D material-based optoelectronics enabled by plasmonic effects and provide a perspective on future possibilities in plasmon-assisted 2D material-based optoelectronic applications.
研究成果
The review concludes that plasmonic effects significantly enhance the optoelectronic performance of 2D materials, offering spectral and polarization selectivities. It suggests that further research into plasmonic nanostructure–2D material hybrid devices will bring new understanding and opportunities in optoelectronic applications.
研究不足
The review does not provide detailed experimental procedures or quantitative analysis of the limitations of the discussed technologies. It focuses on summarizing existing research without delving into specific technical or application constraints.
1:Experimental Design and Method Selection:
The review discusses the integration of plasmonic metal nanostructures with 2D materials to enhance optoelectronic properties. Theoretical models and experimental methods for enhancing light absorption and photoresponsivity are considered.
2:Sample Selection and Data Sources:
Various 2D materials like graphene, TMDs, black phosphorus, and h-BN are discussed. Data sources include experimental results from integrating these materials with plasmonic nanostructures.
3:List of Experimental Equipment and Materials:
Includes metal nanostructures (Au, Ag), 2D materials (graphene, MoS2), and substrates (SiO2/Si).
4:Experimental Procedures and Operational Workflow:
Describes the fabrication of hybrid nanostructures, measurement of photoresponsivity, and characterization techniques.
5:Data Analysis Methods:
Analysis of photocurrent enhancement, spectral selectivity, and polarization dependence.
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