Infrared spectroscopy with tunable graphene plasmons (Presentation Recording)

SPIE NanoScience + Engineering Pub Date : 2015-10-05 DOI:10.1117/12.2190264
A. Marini, I. Silveiro, J. F. Garcia de Abajo
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引用次数: 1

Abstract

We propose the exploitation of plasmons in graphene nanoislands as a promising platform for sensing through surface-enhanced infrared absorption and Raman scattering. Our calculations indicate that the large electrical tunability of graphene enables the identification of molecular resonances by recording broadband absorption or inelastic scattering, replacing wavelength-resolved light collection by a signal integrated over photon energy as a function of the graphene doping level. Our results pave the way for the development of novel cost-effective sensors capable of identifying spectral signatures of molecules without using spectrometers and laser sources.
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可调谐石墨烯等离子体红外光谱(演示记录)
我们提出利用石墨烯纳米岛中的等离子体作为一个有前途的平台,通过表面增强红外吸收和拉曼散射进行传感。我们的计算表明,石墨烯的大电可调性可以通过记录宽带吸收或非弹性散射来识别分子共振,用光子能量集成的信号代替波长分辨光收集,作为石墨烯掺杂水平的函数。我们的研究结果为开发具有成本效益的新型传感器铺平了道路,这些传感器能够在不使用光谱仪和激光源的情况下识别分子的光谱特征。
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SPIE NanoScience + Engineering
SPIE NanoScience + Engineering
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