Graphene coated optical microfiber for aflatoxin B1 detection

Q3 Physics and Astronomy Results in Optics Pub Date : 2024-10-05 DOI:10.1016/j.rio.2024.100746

Imasda Rahmatulloh , Retna Apsari , Syahidatun Na’imah , Tahta Amrillah , Samian , Dyah Hikmawati , Masruroh , Hendra Susanto , M. Yasin , Sulaiman W. Harun

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Abstract

We proposed a graphene coated microfiber-based sensor for enhancing Aflatoxin B1 detection at room temperature. The heat-and-pull technique was used to fabricate the microfiber while the graphene layer was coated using a drop-casting technique. Aflatoxin samples are used as a sensor sensing area soaking solution, whereby the prepared graphene-coated microfiber was used as a sensor probe. The sensing is based on the modulation of transmission intensity and wavelength shift induced by the alteration of concentration of aflatoxin B1 from 0 ppm to 10 ppm. There is an increase in sensitivity from 0.129 dBm/ppm to 0.187 dBm/ppm and an increase in resolution from 0.17 ppm to 0.037 ppm by coating graphene on the microfiber sensor. For the graphene coated microfiber-based sensor, the wavelength shift from 1525.37 nm to 1525.19 nm was obtained when the aflatoxin B1 concentration was increased from 0 to 10 ppm. It reveals a sensitivity of 0.018 nm/ppm with a linearity of more than 90 %. This finding shows that the proposed sensor can be used to detect various concentration of Aflatoxin sample with the ability to offer real time measurement.

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用于黄曲霉毒素 B1 检测的石墨烯涂层光学微纤维

我们提出了一种基于石墨烯涂层微纤维的传感器，用于提高室温下黄曲霉毒素 B1 的检测能力。微纤维的制造采用了热拉技术，而石墨烯层的涂覆则采用了滴注技术。黄曲霉毒素样品被用作传感器传感区域的浸泡液，而制备好的涂有石墨烯的微纤维则被用作传感器探针。传感是基于黄曲霉毒素 B1 浓度从 0 ppm 到 10 ppm 的变化所引起的透射强度调制和波长偏移。在微纤维传感器上涂覆石墨烯后，灵敏度从 0.129 dBm/ppm 提高到 0.187 dBm/ppm，分辨率从 0.17 ppm 提高到 0.037 ppm。对于涂有石墨烯的微纤维传感器，当黄曲霉毒素 B1 浓度从 0 ppm 增加到 10 ppm 时，波长从 1525.37 nm 变为 1525.19 nm。灵敏度为 0.018 nm/ppm，线性度超过 90%。这一结果表明，所提出的传感器可用于检测不同浓度的黄曲霉毒素样品，并能进行实时测量。

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