Fiber optic humidity sensor based on silk fibroin interference films

IF 0.5 Q4 OPTICS Photonics Letters of Poland Pub Date : 2020-07-01 DOI:10.4302/plp.v12i2.1018

Z. Opilski, M. Procek, S. Aznar-Cervantes, J. L. Cénis, Xavier Muñoz

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引用次数: 4

Abstract

The article presents an inexpensive and simple method of fiber optic interference relative humidity (RH) sensors based on silk fibroin (SF) films. The sensors were made on standard multimode telecommunications optical fibers using dip-coating method and examined using broadband light sources. The measuring stand at which the basic sensor parameters were measured and the measured parameters were presented. Full Text: PDF References Y.-G. Han, "Relative Humidity Sensors Based on Microfiber Knot Resonators—A Review", Sensors, 19(23), 5196 (2019) CrossRef L.D. Koh, Y. Cheng, C. P. Teng, Y. W. Khin, X. J. Loh, S. Y. Tee, et al., "Structures, mechanical properties and applications of silk fibroin materials", Prog. Polim. Sci. 46, 86-110 (2015) CrossRef H. Tao, D. L. Kaplan, F. G. Omenetto, "Silk Materials – A Road to Sustainable High Technology", Adv. Mater., 24, 2824-2837 (2012), CrossRef Q. Li, N. Qi, Y. Peng, Y. Zhang, L. Shi, X. Zhang, et al., "Sub-micron silk fibroin film with high humidity sensibility through color changing", RSC Adv. 7(29), 17889-17897 (2017) CrossRef S.K. Hwan, H.C. Sung, B. Roy, S. Kim, Y.H. Ahn, "Humidity sensing using THz metamaterial with silk protein fibroin", Opt. Express 26(26), 33575-33581 (2018) CrossRef M. Procek, Z. Opilski, A. M. Maqueda, X. M. Berbel, S. D. Aznar-Cervantes, J. L. Cenis, C. D. Horna, "Silk fibroin thin films for optical humidity sensing", Proc. SPIE , 11204, 0277-786X, (2019). CrossRef Y. Luo, Y. Pei, X. Feng, B. Lu, L. Wang, "Silk fibroin based transparent and wearable humidity sensor for ultra-sensitive respiration monitoring", Mater. Lett., 260, 126945 (2020) CrossRef E. Maciak, "Low-Coherence Interferometric Fiber Optic Sensor for Humidity Monitoring Based on Nafion® Thin Film†", Sensors 19(3), 629 (2019) CrossRef

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基于丝素干涉膜的光纤湿度传感器

本文提出了一种基于丝素蛋白（SF）膜的光纤干涉相对湿度（RH）传感器的廉价而简单的方法。传感器采用浸涂法在标准多模通信光纤上制造，并使用宽带光源进行检查。介绍了传感器基本参数的测量台和测量参数。全文：PDF参考文献韩，“基于微纤维结谐振器的相对湿度传感器——综述”，传感器，19（23），5196（2019）CrossRef L.D.Koh，Y.Cheng，C.P.Teng，Y.W.Khin，X.J.Loh，S.Y.Tee等，“丝素材料的结构、力学性能和应用”，Prog。脊髓灰质炎。科学。46，86-110（2015）CrossRef H.Tao，D.L.Kaplan，F.G.Omenetto，“丝绸材料——可持续高科技之路”，高级材料。，2422824-2837（2012），CrossRef Q.Li，N.Qi，Y.Peng，Y.Zhang，L.Shi，X.Zhang等人，“通过变色具有高湿度敏感性的亚微米丝素蛋白膜”，RSC Adv.7（29），17889-17897（2017）CrossRef S.K.Hwan，H.C.Sung，B.Roy，S.Kim，Y.H.Ahn，“使用含丝蛋白的太赫兹超材料进行湿度传感”，Opt。Express 26（26），33575-33581（2018）CrossRef M.Procek，Z.Opilski，A.M.Maqueda，X.M.Berbel，S.D.Aznar Cervantes，J.L.Cenis，C.D.Horna，“用于光学湿度传感的丝素蛋白薄膜”，Proc。斯皮，112042027-786X，（2019）。CrossRef Y.Luo，Y.Pei，X.Feng，B.Lu，L.Wang，“用于超灵敏呼吸监测的基于丝素蛋白的透明可穿戴湿度传感器”，Mater。Lett。，260126945（2020）CrossRef E.Maciak，“基于Nafion®薄膜的湿度监测用低相干干涉型光纤传感器†”，传感器19（3），629（2019）

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来源期刊

Photonics Letters of Poland OPTICS-

CiteScore

1.40

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0.00%

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