Mid-infrared biosensing with tunable graphene plasmons

Wu Tingting, W. Lei
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Abstract

Mid-Infrared (mid-IR) spectroscopy has been widely used to identify biomolecules. Due to the general poor interaction of mid-IR light with nanometric-scale molecules, the electro-optical properties of graphene resonant plasmons based device is exploited to demonstrate a tunable label-free protein sensor with high sensitivity. The confinement of graphene plasmons is much larger than that of the conventional metallic structure due to the two-dimensional nature of the collective oscillations of Dirac quasi-particles. The localized graphene plasmons can dynamically produce a high light overlap with nanometer size biomolecules, which plays an essential role in the resulted super sensitivity in the detection of the protein's permittivity. Furthermore, graphene plasmons merge optics with electronics which provide a unique capacity to control light in nanoscale. Tunable resonant spectra selectivity combined with the super ambient condition sensitivity promise the graphene plasmons based device exciting prospects in future nanoscale biosensing.
可调谐石墨烯等离子体的中红外生物传感
中红外光谱已广泛应用于生物分子的鉴定。由于中红外光与纳米尺度分子的相互作用一般较差,因此利用石墨烯共振等离子体器件的电光特性来展示具有高灵敏度的可调谐无标签蛋白质传感器。由于狄拉克准粒子集体振荡的二维性质,石墨烯等离子体的约束比传统金属结构的约束要大得多。石墨烯等离子体可以动态地与纳米尺寸的生物分子产生高度的光重叠,这在检测蛋白质介电常数的超灵敏度中起着至关重要的作用。此外,石墨烯等离子体将光学与电子相结合,提供了在纳米尺度上控制光的独特能力。可调谐的共振光谱选择性与超环境条件敏感性相结合,使石墨烯等离子体器件在未来的纳米尺度生物传感中具有令人兴奋的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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