Here, we elucidate a novel biosensor in aqueous environments based on a slotted photonic crystal nanobeam cavity. A slot is introduced in the center of the photonic crystal nanobeam cavity, which reduces the mode volume by an order of 10 without sacrificing the quality factor and sensitivity. This sensor is characteristic of an ultrasmall mode volume of 0.076 (lambda)(3) and shows a prominent advantage in regards to single nanoparticle detection, where the minimum detectable nanoparticle radius is around 1 nm. Additionally, its quality factor is as high as 6.08 x 10(6) and its sensitivity is around 460 nm/RIU, which is promising for refractive index sensing. This sensor can also be integrated into a high-density array of sensor networks because of the unparalleled fabrication advantages. (C) 2015 Optical Society of America
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机译:在这里,我们阐明了一种基于狭缝光子晶体纳米束腔的水性环境中的新型生物传感器。在光子晶体纳米束腔的中心引入了一个槽,该槽在不牺牲品质因数和灵敏度的情况下将模式体积减小了10个数量级。该传感器具有0.076(λ/ n)(3)的超小模式体积,在单个纳米颗粒检测方面显示出显着优势,其中最小可检测纳米颗粒半径约为1 nm。此外,其品质因数高达6.08 x 10(6),其灵敏度约为460 nm / RIU,有望用于折射率传感。由于无与伦比的制造优势,该传感器还可以集成到高密度传感器网络阵列中。 (C)2015年美国眼镜学会
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