Simultaneous Measurement of Liquid Level and Refractive Index Employing a Side-Polished Spiral Polymer Optical Fiber Based SPR Sensor

Chuanxin Teng , Rongping Yang , Rui Min , Jiangrong Lu , Shijie Deng , Minmin Xue , Ming Chen , Libo Yuan , Xuehao Hu

Photonic Sensors ›› 2025, Vol. 15 ›› Issue (3) : 250318

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Photonic Sensors ›› 2025, Vol. 15 ›› Issue (3) : 250318 DOI: 10.1007/s13320-025-0723-y
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Simultaneous Measurement of Liquid Level and Refractive Index Employing a Side-Polished Spiral Polymer Optical Fiber Based SPR Sensor

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Abstract

The work describes a surface plasmon resonance (SPR) sensor that measures the liquid level and refractive index (RI) simultaneously. The sensor is fabricated by a polymer optical fiber (POF) with a side-polished spiral structure. The POF is wound around a plastic rod with the same pitch and polished into a series of separated side-polished areas to form the sensor probe. Afterwards, the polished surfaces are coated with a gold layer to construct the SPR sensor. The proposed sensor can provide multi-point liquid-level measurement besides RI sensing. The influences of structural parameters such as the bending radius, polishing depth, and pitch on the sensing performance are experimentally studied. The experimental results indicate that the RI could be determined by employing the SPR wavelength shift, and the RI sensitivity of 1862 nm/RIU within the 1.34–1.40 range is obtained. Moreover, the SPR peak’s depth variation can be utilized to monitor the liquid level, and the sensor can provide adjustable resolution and a measurement range for liquid level sensing. With its simple fabrication, low cost, and flexible sensing ability, this sensor probe is suitable for the usage in biochemical applications.

Keywords

Surface plasmon resonance sensor / side-polished spiral structure / polymer optical fiber / refractive index sensing / liquid level sensing

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Chuanxin Teng, Rongping Yang, Rui Min, Jiangrong Lu, Shijie Deng, Minmin Xue, Ming Chen, Libo Yuan, Xuehao Hu. Simultaneous Measurement of Liquid Level and Refractive Index Employing a Side-Polished Spiral Polymer Optical Fiber Based SPR Sensor. Photonic Sensors, 2025, 15(3): 250318 DOI:10.1007/s13320-025-0723-y

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References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

ZhangF, LiS, YanX, ZhangX, WangF, SuzukiT, et al.. A refractive index sensitive liquid level monitoring sensor based on multimode interference. Photonics, 2020, 7(4): 89

[2]

GalarzaM, A. Perez-HerreraR, LeandroD, JudezA, López-AmoM. Spatial-frequency multiplexing of high-sensitivity liquid level sensors based on multimode interference micro-fibers. Sensors and Actuators A: Physical, 2020, 307: 111985

[3]

RicchiutiA L, BarreraD, UrrutiaA, GoicoecheaJ, ArreguiF J, SalesS. Continuous liquid-level sensor based on a long-period grating and microwave photonics filtering techniques. IEEE Sensors Journal, 2016, 16(6): 1652-1658

[4]

DíazC A R, Leal-JuniorA G, AndréP S B, da C. AntunesP F, PontesMJ, Frizera-NetoA, et al.. Liquid level measurement based on FBG-embedded diaphragms with temperature compensation. IEEE Sensors Journal, 2018, 18(1): 193-200

[5]

del C. Alonso-MuriasM, Velazquez-GonzalezJ S, Monzon-HernandezD. SPR fiber tip sensor for the simultaneous measurement of refractive index, temperature, and level of a liquid. Journal of Lightwave Technology, 2019, 37(18): 4808-4814

[6]

TengC, WangY, MinR, DengS, DengH, LiY, et al.. Plastic optical fiber based SPR sensor for simultaneous measurement of refractive index and liquid level. IEEE Sensors Journal, 2022, 22(7): 6677-6684

[7]

TengC, YingS, MinR, DengS, DengH, ChenM, et al.. Side-polish plastic optical fiber based SPR sensor for refractive index and liquid-level sensing. Sensors, 2022, 22(16): 6241

[8]

HomolaJ. Surface plasmon resonance sensors for detection of chemical and biological species. Chemical Reviews, 2008, 108(2): 462-493

[9]

WangS F, ChiuM H, ChangR S. Numerical simulation of a D-type optical fiber sensor based on the Kretchmann’s configuration and heterodyne interferometry. Sensors and Actuators B: Chemical, 2006, 114(1): 120-126

[10]

CennamoN, PasquardiniL, ArcadioF, VanzettiL E, BossiA M, ZeniL. D-shaped plastic optical fibre aptasensor for fast thrombin detection in nanomolar range. Scientific Reports, 2019, 9(1): 18740

[11]

PaulD, DuttaS, BiswasR. LSPR enhanced gasoline sensing with a U-bent optical fiber. Journal of Physics D: Applied Physics, 2016, 49(30): 305104

[12]

VermaR K, SharmaA K, GuptaB D. Modeling of tapered fiber-optic surface plasmon resonance sensor with enhanced sensitivity. IEEE Photonics Technology Letters, 2007, 19(22): 1786-1788

[13]

VermaR K, SharmaA K, GuptaB D. Surface plasmon resonance based tapered fiber optic sensor with different taper profiles. Optics Communications, 2008, 281(6): 1486-1491

[14]

ZhuW, HuangQ, WangY, LewisE, YangM. Enhanced sensitivity of heterocore structure surface plasmon resonance sensors based on local microstructures. Optical Engineering, 2018, 57(7): 076105

[15]

ZhangY N, SiyuE, TaoB R, WuQ L, HanB. Reflective SPR sensor for simultaneous measurement of nitrate concentration and temperature. IEEE Transactions on Instrumentation and Measurement, 2019, 68(11): 4566-4574

[16]

ZhaoY, WuQ, ZhangY. Simultaneous measurement of salinity, temperature and pressure in seawater using optical fiber SPR sensor. Measurement, 2019, 148: 106792

[17]

LiB, ZhangF, YanX, ZhangX, WangF, ChengT. An optical fiber-based surface plasmon resonance sensor for simultaneous measurement of temperature and magnetic field intensity. IEEE Transactions on Instrumentation and Measurement, 2022, 71: 1-7

[18]

WengS, PeiL, LiuC, WangJ, LiJ, NingT. Double-side polished fiber SPR sensor for simultaneous temperature and refractive index measurement. IEEE Photonics Technology Letters, 2016, 28(18): 1916-1919

[19]

Velázquez-GonzálezJ S, Monzón-HernándezD, Moreno-HernándezD, Martínez-PiñónF, Hernández-RomanoI. Simultaneous measurement of refractive index and temperature using a SPR-based fiber optic sensor. Sensors and Actuators B: Chemical, 2017, 242: 912-920

[20]

LiuL, LiuZ, ZhangY, LiuS. V-shaped micro-structure optical fiber surface plasmon resonance sensor for the simultaneous measurement of the refractive index and temperature. Optics Letters, 2019, 44(20): 5093

[21]

LiuL, ZhengJ, DengS, YuanL, TengC. Parallel polished plastic optical fiber-based SPR sensor for simultaneous measurement of RI and temperature. IEEE Transactions on Instrumentation and Measurement, 2021, 70: 1-8

[22]

ZhangY, ChenH, WangM, LiuY, FanX, ChenQ, et al.. Simultaneous measurement of refractive index and temperature of seawater based on surface plasmon resonance in a dual D-type photonic crystal fiber. Materials Research Express, 2021, 8(8): 085201

[23]

ZhangQ, LiuH, LiB, ZhangF, YanX, ZhangX, et al.. A dual-channel surface plasmon resonance sensor for the liquid refractive index and temperature measurement based on hollow-core fiber. IEEE Sensors Journal, 2022, 22(8): 7785-7791

[24]

TengC, ShaoP, LiS, LiS, LiuH, DengH, et al.. Double-side polished U-shape plastic optical fiber based SPR sensor for the simultaneous measurement of refractive index and temperature. Optics Communications, 2022, 525: 128844

[25]

YinZ, JingX, BaiG, WuB, GaoZ, LiuC, et al.. Experimental study of dual-parameter SPR sensor with integrated sensing channel. IEEE Sensors Journal, 2023 1
[26]

HeR, TengC, KumarS, MarquesC, MinR. Polymer optical fiber liquid level sensor: a review. IEEE Sensors Journal, 2022, 22(2): 1081-1091

[27]

Velázquez-GonzálezJ S, Monzón-HernándezD, Martínez-PiñónF, May-ArriojaD A, Hernández-RomanoI. Surface plasmon resonancebased optical fiber embedded in PDMS for temperature sensing. IEEE Journal of Selected Topics in Quantum Electronics, 2017, 23(2): 126-131

[28]

LiuX, ZhaoY, LvR Q, WangQ. Enhancement of RI sensitivity through bending a tapered-SMF-based balloon-like interferometer. Journal of Lightwave Technology, 2016, 34(14): 3293-3299

[29]

KieselS, PetersK, HassanT, KowalskyM. Behaviour of intrinsic polymer optical fibre sensor for large-strain applications. Measurement Science and Technology, 2007, 18(10): 3144-3154

[30]

SharmaA K, GuptaB D. On the performance of different bimetallic combinations in surface plasmon resonance based fiber optic sensors. Journal of Applied Physics, 2007, 101(9): 093111

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