Abstract

In this paper, a fiber-optic temperature sensing system, based on surface plasmon resonance (SPR) and integrated with a smart-phone platform, is proposed and demonstrated. The sensing system is composed of a side-polished-fiber-based SPR sensor, which is illuminated by the LED flash from one end, and the output signals are recorded and processed by the camera and a designed application in the smart-phone. The sensing performance is evaluated by immersing the sensor in distilled water under different temperatures. Experimental results show that the measurement resolution of the proposed temperature sensor can reach 0.83°C in the range from 30 to 70°C, corresponding to a linear correlation coefficient of 0.9798. The low-cost and portable fiber optic SPR sensor based on a smart-phone platform has wide application potentials in the fields of health-care, environmental monitoring, etc.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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References

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  1. B. D. Gupta and R. K. Verma, “Surface Plasmon Resonance-Based Fiber Optic Sensors: Principle, Probe Designs, and Some Applications,” J. Sens. 2009, 1–12 (2009).
    [Crossref]
  2. P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
    [Crossref]
  3. Z. Liu, Y. Wei, Y. Zhang, Y. Zhang, E. Zhao, J. Yang, and L. Yuan, “Twin-core fiber SPR sensor,” Opt. Lett. 40(12), 2826–2829 (2015).
    [Crossref]
  4. J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
    [Crossref]
  5. Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
    [Crossref]
  6. J. Homola, “Present and future of surface plasmon resonance biosensors,” Anal. Bioanal. Chem. 377(3), 528–539 (2003).
    [Crossref]
  7. H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
    [Crossref]
  8. Z. Zhu, L. Liu, Z. Liu, Y. Zhang, and Y. Zhang, “Surface-plasmon-resonance-based optical-fiber temperature sensor with high sensitivity and high figure of merit,” Opt. Lett. 42(15), 2948–2951 (2017).
    [Crossref]
  9. N. Luan, R. Wang, W. Lv, Y. Lu, and J. Yao, “Surface plasmon resonance temperature sensor based on photonic crystal fibers randomly filled with silver nanowires,” Sensors 14(9), 16035–16045 (2014).
    [Crossref]
  10. Y. Zhao, Z. Q. Deng, and H. F. Hu, “Fiber-Optic SPR Sensor for Temperature Measurement,” IEEE Trans. Instrum. Meas. 64(11), 3099–3104 (2015).
    [Crossref]
  11. L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
    [Crossref]
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    [Crossref]
  13. L. Zhao, H. Han, Y. Lian, N. Luan, and J. Liu, “Theoretical analysis of all-solid D-type photonic crystal fiber based plasmonic sensor for refractive index and temperature sensing,” Opt. Fiber Technol. 50, 165–171 (2019).
    [Crossref]
  14. P. Preechaburana, M. C. Gonzalez, A. Suska, and D. Filippini, “Surface plasmon resonance chemical sensing on cell phones,” Angew. Chem., Int. Ed. 51(46), 11585–11588 (2012).
    [Crossref]
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    [Crossref]
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    [Crossref]
  18. Q. Liu, Y. Liu, H. Yuan, F. Wang, and W. Peng, “A smartphone-based red–green dual color fiber optic surface plasmon resonance sensor,” IEEE Photonics Technol. Lett. 30(10), 927–930 (2018).
    [Crossref]
  19. Y. H. Kim, S. J. Park, S.-W. Jeon, S. Ju, C.-S. Park, W.-T. Han, and B. H. Lee, “Thermo-optic coefficient measurement of liquids based on simultaneous temperature and refractive index sensing capability of a two-mode fiber interferometric probe,” Opt. Express 20(21), 23744–23754 (2012).
    [Crossref]
  20. Y. Wang, Q. Huang, W. Zhu, M. Yang, and E. Lewis, “Novel optical fiber SPR temperature sensor based on MMF-PCF-MMF structure and gold-PDMS film,” Opt. Express 26(2), 1910–1917 (2018).
    [Crossref]

2019 (2)

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

L. Zhao, H. Han, Y. Lian, N. Luan, and J. Liu, “Theoretical analysis of all-solid D-type photonic crystal fiber based plasmonic sensor for refractive index and temperature sensing,” Opt. Fiber Technol. 50, 165–171 (2019).
[Crossref]

2018 (2)

Q. Liu, Y. Liu, H. Yuan, F. Wang, and W. Peng, “A smartphone-based red–green dual color fiber optic surface plasmon resonance sensor,” IEEE Photonics Technol. Lett. 30(10), 927–930 (2018).
[Crossref]

Y. Wang, Q. Huang, W. Zhu, M. Yang, and E. Lewis, “Novel optical fiber SPR temperature sensor based on MMF-PCF-MMF structure and gold-PDMS film,” Opt. Express 26(2), 1910–1917 (2018).
[Crossref]

2017 (3)

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Z. Zhu, L. Liu, Z. Liu, Y. Zhang, and Y. Zhang, “Surface-plasmon-resonance-based optical-fiber temperature sensor with high sensitivity and high figure of merit,” Opt. Lett. 42(15), 2948–2951 (2017).
[Crossref]

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

2016 (3)

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
[Crossref]

M. Lu, X. Zhang, Y. Liang, L. Li, J. F. Masson, and W. Peng, “Liquid crystal filled surface plasmon resonance thermometer,” Opt. Express 24(10), 10904 (2016).
[Crossref]

2015 (4)

K. Bremer and B. Roth, “Fibre optic surface plasmon resonance sensor system designed for smartphones,” Opt. Express 23(13), 17179–17184 (2015).
[Crossref]

Y. Zhao, Z. Q. Deng, and H. F. Hu, “Fiber-Optic SPR Sensor for Temperature Measurement,” IEEE Trans. Instrum. Meas. 64(11), 3099–3104 (2015).
[Crossref]

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Z. Liu, Y. Wei, Y. Zhang, Y. Zhang, E. Zhao, J. Yang, and L. Yuan, “Twin-core fiber SPR sensor,” Opt. Lett. 40(12), 2826–2829 (2015).
[Crossref]

2014 (1)

N. Luan, R. Wang, W. Lv, Y. Lu, and J. Yao, “Surface plasmon resonance temperature sensor based on photonic crystal fibers randomly filled with silver nanowires,” Sensors 14(9), 16035–16045 (2014).
[Crossref]

2013 (1)

D. Gallegos, K. D. Long, H. Yu, P. P. Clark, Y. Lin, S. George, P. Nath, and B. T. Cunningham, “Label-free biodetection using a smartphone,” Lab Chip 13(11), 2124–2132 (2013).
[Crossref]

2012 (2)

2009 (1)

B. D. Gupta and R. K. Verma, “Surface Plasmon Resonance-Based Fiber Optic Sensors: Principle, Probe Designs, and Some Applications,” J. Sens. 2009, 1–12 (2009).
[Crossref]

2003 (1)

J. Homola, “Present and future of surface plasmon resonance biosensors,” Anal. Bioanal. Chem. 377(3), 528–539 (2003).
[Crossref]

Ayas, S.

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Bremer, K.

Cao, S.

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

Celik, M.

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Chao, L.

L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
[Crossref]

Chen, C.

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Chen, Y.

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

Chen, Z.

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

Chu, P. K.

L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
[Crossref]

Clark, P. P.

D. Gallegos, K. D. Long, H. Yu, P. P. Clark, Y. Lin, S. George, P. Nath, and B. T. Cunningham, “Label-free biodetection using a smartphone,” Lab Chip 13(11), 2124–2132 (2013).
[Crossref]

Cunningham, B. T.

D. Gallegos, K. D. Long, H. Yu, P. P. Clark, Y. Lin, S. George, P. Nath, and B. T. Cunningham, “Label-free biodetection using a smartphone,” Lab Chip 13(11), 2124–2132 (2013).
[Crossref]

Dana, A.

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Deng, Z. Q.

Y. Zhao, Z. Q. Deng, and H. F. Hu, “Fiber-Optic SPR Sensor for Temperature Measurement,” IEEE Trans. Instrum. Meas. 64(11), 3099–3104 (2015).
[Crossref]

Dong, J.

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

Elbuken, C.

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Esen, E.

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Fang, J.

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Feng, X.

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Filippini, D.

P. Preechaburana, M. C. Gonzalez, A. Suska, and D. Filippini, “Surface plasmon resonance chemical sensing on cell phones,” Angew. Chem., Int. Ed. 51(46), 11585–11588 (2012).
[Crossref]

Fu, C.

L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
[Crossref]

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

Gallegos, D.

D. Gallegos, K. D. Long, H. Yu, P. P. Clark, Y. Lin, S. George, P. Nath, and B. T. Cunningham, “Label-free biodetection using a smartphone,” Lab Chip 13(11), 2124–2132 (2013).
[Crossref]

George, S.

D. Gallegos, K. D. Long, H. Yu, P. P. Clark, Y. Lin, S. George, P. Nath, and B. T. Cunningham, “Label-free biodetection using a smartphone,” Lab Chip 13(11), 2124–2132 (2013).
[Crossref]

Gonzalez, M. C.

P. Preechaburana, M. C. Gonzalez, A. Suska, and D. Filippini, “Surface plasmon resonance chemical sensing on cell phones,” Angew. Chem., Int. Ed. 51(46), 11585–11588 (2012).
[Crossref]

Guan, H.

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

Guner, H.

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Gupta, B. D.

B. D. Gupta and R. K. Verma, “Surface Plasmon Resonance-Based Fiber Optic Sensors: Principle, Probe Designs, and Some Applications,” J. Sens. 2009, 1–12 (2009).
[Crossref]

Han, H.

L. Zhao, H. Han, Y. Lian, N. Luan, and J. Liu, “Theoretical analysis of all-solid D-type photonic crystal fiber based plasmonic sensor for refractive index and temperature sensing,” Opt. Fiber Technol. 50, 165–171 (2019).
[Crossref]

Han, W.-T.

Homola, J.

J. Homola, “Present and future of surface plasmon resonance biosensors,” Anal. Bioanal. Chem. 377(3), 528–539 (2003).
[Crossref]

Hu, H. F.

Y. Zhao, Z. Q. Deng, and H. F. Hu, “Fiber-Optic SPR Sensor for Temperature Measurement,” IEEE Trans. Instrum. Meas. 64(11), 3099–3104 (2015).
[Crossref]

Hu, S.

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

Huang, Q.

Jeon, S.-W.

Jiang, Z.

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

Ju, S.

Kim, Y. H.

Kokturk, G.

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Lee, B. H.

Lewis, E.

Li, L.

Lian, J.

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

Lian, Y.

L. Zhao, H. Han, Y. Lian, N. Luan, and J. Liu, “Theoretical analysis of all-solid D-type photonic crystal fiber based plasmonic sensor for refractive index and temperature sensing,” Opt. Fiber Technol. 50, 165–171 (2019).
[Crossref]

Liang, Y.

Liao, C.

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

Lin, Y.

D. Gallegos, K. D. Long, H. Yu, P. P. Clark, Y. Lin, S. George, P. Nath, and B. T. Cunningham, “Label-free biodetection using a smartphone,” Lab Chip 13(11), 2124–2132 (2013).
[Crossref]

Liu, J.

L. Zhao, H. Han, Y. Lian, N. Luan, and J. Liu, “Theoretical analysis of all-solid D-type photonic crystal fiber based plasmonic sensor for refractive index and temperature sensing,” Opt. Fiber Technol. 50, 165–171 (2019).
[Crossref]

Liu, L.

Liu, Q.

Q. Liu, Y. Liu, H. Yuan, F. Wang, and W. Peng, “A smartphone-based red–green dual color fiber optic surface plasmon resonance sensor,” IEEE Photonics Technol. Lett. 30(10), 927–930 (2018).
[Crossref]

Liu, Y.

Q. Liu, Y. Liu, H. Yuan, F. Wang, and W. Peng, “A smartphone-based red–green dual color fiber optic surface plasmon resonance sensor,” IEEE Photonics Technol. Lett. 30(10), 927–930 (2018).
[Crossref]

Liu, Z.

Long, K. D.

D. Gallegos, K. D. Long, H. Yu, P. P. Clark, Y. Lin, S. George, P. Nath, and B. T. Cunningham, “Label-free biodetection using a smartphone,” Lab Chip 13(11), 2124–2132 (2013).
[Crossref]

Lu, H.

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Lu, M.

Lu, Y.

N. Luan, R. Wang, W. Lv, Y. Lu, and J. Yao, “Surface plasmon resonance temperature sensor based on photonic crystal fibers randomly filled with silver nanowires,” Sensors 14(9), 16035–16045 (2014).
[Crossref]

Luan, N.

L. Zhao, H. Han, Y. Lian, N. Luan, and J. Liu, “Theoretical analysis of all-solid D-type photonic crystal fiber based plasmonic sensor for refractive index and temperature sensing,” Opt. Fiber Technol. 50, 165–171 (2019).
[Crossref]

N. Luan, R. Wang, W. Lv, Y. Lu, and J. Yao, “Surface plasmon resonance temperature sensor based on photonic crystal fibers randomly filled with silver nanowires,” Sensors 14(9), 16035–16045 (2014).
[Crossref]

Luo, Y.

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Lv, J.

L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
[Crossref]

Lv, W.

N. Luan, R. Wang, W. Lv, Y. Lu, and J. Yao, “Surface plasmon resonance temperature sensor based on photonic crystal fibers randomly filled with silver nanowires,” Sensors 14(9), 16035–16045 (2014).
[Crossref]

Mao, P.

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Masson, J. F.

Mu, H.

L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
[Crossref]

Nath, P.

D. Gallegos, K. D. Long, H. Yu, P. P. Clark, Y. Lin, S. George, P. Nath, and B. T. Cunningham, “Label-free biodetection using a smartphone,” Lab Chip 13(11), 2124–2132 (2013).
[Crossref]

Ozgur, E.

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Park, C.-S.

Park, S. J.

Peng, S.

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Peng, W.

Q. Liu, Y. Liu, H. Yuan, F. Wang, and W. Peng, “A smartphone-based red–green dual color fiber optic surface plasmon resonance sensor,” IEEE Photonics Technol. Lett. 30(10), 927–930 (2018).
[Crossref]

M. Lu, X. Zhang, Y. Liang, L. Li, J. F. Masson, and W. Peng, “Liquid crystal filled surface plasmon resonance thermometer,” Opt. Express 24(10), 10904 (2016).
[Crossref]

Preechaburana, P.

P. Preechaburana, M. C. Gonzalez, A. Suska, and D. Filippini, “Surface plasmon resonance chemical sensing on cell phones,” Angew. Chem., Int. Ed. 51(46), 11585–11588 (2012).
[Crossref]

Qiang, L.

L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
[Crossref]

Qiu, W.

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

Roth, B.

Suska, A.

P. Preechaburana, M. C. Gonzalez, A. Suska, and D. Filippini, “Surface plasmon resonance chemical sensing on cell phones,” Angew. Chem., Int. Ed. 51(46), 11585–11588 (2012).
[Crossref]

Tang, J.

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Tao, S.

L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
[Crossref]

Topal, A. E.

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Uludag, Y.

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Verma, R. K.

B. D. Gupta and R. K. Verma, “Surface Plasmon Resonance-Based Fiber Optic Sensors: Principle, Probe Designs, and Some Applications,” J. Sens. 2009, 1–12 (2009).
[Crossref]

Wang, F.

Q. Liu, Y. Liu, H. Yuan, F. Wang, and W. Peng, “A smartphone-based red–green dual color fiber optic surface plasmon resonance sensor,” IEEE Photonics Technol. Lett. 30(10), 927–930 (2018).
[Crossref]

L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
[Crossref]

Wang, G.

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

Wang, R.

N. Luan, R. Wang, W. Lv, Y. Lu, and J. Yao, “Surface plasmon resonance temperature sensor based on photonic crystal fibers randomly filled with silver nanowires,” Sensors 14(9), 16035–16045 (2014).
[Crossref]

Wang, Y.

Y. Wang, Q. Huang, W. Zhu, M. Yang, and E. Lewis, “Novel optical fiber SPR temperature sensor based on MMF-PCF-MMF structure and gold-PDMS film,” Opt. Express 26(2), 1910–1917 (2018).
[Crossref]

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

Wei, Y.

Xiong, X.

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

Xu, G.

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

Xu, X.

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

Yang, J.

Yang, M.

Yao, J.

N. Luan, R. Wang, W. Lv, Y. Lu, and J. Yao, “Surface plasmon resonance temperature sensor based on photonic crystal fibers randomly filled with silver nanowires,” Sensors 14(9), 16035–16045 (2014).
[Crossref]

Yu, H.

D. Gallegos, K. D. Long, H. Yu, P. P. Clark, Y. Lin, S. George, P. Nath, and B. T. Cunningham, “Label-free biodetection using a smartphone,” Lab Chip 13(11), 2124–2132 (2013).
[Crossref]

Yu, J.

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Yuan, H.

Q. Liu, Y. Liu, H. Yuan, F. Wang, and W. Peng, “A smartphone-based red–green dual color fiber optic surface plasmon resonance sensor,” IEEE Photonics Technol. Lett. 30(10), 927–930 (2018).
[Crossref]

Yuan, L.

Zhang, H.

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

Zhang, J.

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Zhang, X.

Zhang, Y.

Zhao, E.

Zhao, J.

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

Zhao, L.

L. Zhao, H. Han, Y. Lian, N. Luan, and J. Liu, “Theoretical analysis of all-solid D-type photonic crystal fiber based plasmonic sensor for refractive index and temperature sensing,” Opt. Fiber Technol. 50, 165–171 (2019).
[Crossref]

Zhao, Y.

Y. Zhao, Z. Q. Deng, and H. F. Hu, “Fiber-Optic SPR Sensor for Temperature Measurement,” IEEE Trans. Instrum. Meas. 64(11), 3099–3104 (2015).
[Crossref]

Zhu, W.

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

Y. Wang, Q. Huang, W. Zhu, M. Yang, and E. Lewis, “Novel optical fiber SPR temperature sensor based on MMF-PCF-MMF structure and gold-PDMS film,” Opt. Express 26(2), 1910–1917 (2018).
[Crossref]

Zhu, Z.

Anal. Bioanal. Chem. (1)

J. Homola, “Present and future of surface plasmon resonance biosensors,” Anal. Bioanal. Chem. 377(3), 528–539 (2003).
[Crossref]

Angew. Chem., Int. Ed. (1)

P. Preechaburana, M. C. Gonzalez, A. Suska, and D. Filippini, “Surface plasmon resonance chemical sensing on cell phones,” Angew. Chem., Int. Ed. 51(46), 11585–11588 (2012).
[Crossref]

IEEE J. Sel. Top. Quantum Electron. (1)

H. Zhang, Y. Chen, X. Feng, X. Xiong, S. Hu, Z. Jiang, J. Dong, W. Zhu, W. Qiu, and H. Guan, “Long-range surface plasmon resonance sensor based on side-polished fiber for biosensing applications,” IEEE J. Sel. Top. Quantum Electron. 25(2), 1–9 (2019).
[Crossref]

IEEE Photonics J. (1)

Y. Wang, J. Dong, Y. Luo, J. Tang, H. Lu, J. Yu, H. Guan, J. Zhang, and Z. Chen, “Indium tin oxide coated two-mode Fiber for enhanced SPR sensor in near-infrared region,” IEEE Photonics J. 9(6), 1–9 (2017).
[Crossref]

IEEE Photonics Technol. Lett. (1)

Q. Liu, Y. Liu, H. Yuan, F. Wang, and W. Peng, “A smartphone-based red–green dual color fiber optic surface plasmon resonance sensor,” IEEE Photonics Technol. Lett. 30(10), 927–930 (2018).
[Crossref]

IEEE Trans. Instrum. Meas. (1)

Y. Zhao, Z. Q. Deng, and H. F. Hu, “Fiber-Optic SPR Sensor for Temperature Measurement,” IEEE Trans. Instrum. Meas. 64(11), 3099–3104 (2015).
[Crossref]

J. Sens. (1)

B. D. Gupta and R. K. Verma, “Surface Plasmon Resonance-Based Fiber Optic Sensors: Principle, Probe Designs, and Some Applications,” J. Sens. 2009, 1–12 (2009).
[Crossref]

Lab Chip (1)

D. Gallegos, K. D. Long, H. Yu, P. P. Clark, Y. Lin, S. George, P. Nath, and B. T. Cunningham, “Label-free biodetection using a smartphone,” Lab Chip 13(11), 2124–2132 (2013).
[Crossref]

Opt. Commun. (1)

L. Chao, F. Wang, J. Lv, S. Tao, L. Qiang, C. Fu, H. Mu, and P. K. Chu, “A highly temperature-sensitive photonic crystal fiber based on surface plasmon resonance,” Opt. Commun. 359, 378–382 (2016).
[Crossref]

Opt. Express (4)

Opt. Fiber Technol. (1)

L. Zhao, H. Han, Y. Lian, N. Luan, and J. Liu, “Theoretical analysis of all-solid D-type photonic crystal fiber based plasmonic sensor for refractive index and temperature sensing,” Opt. Fiber Technol. 50, 165–171 (2019).
[Crossref]

Opt. Lett. (2)

Opt. Quantum Electron. (1)

P. Mao, Y. Luo, C. Chen, S. Peng, X. Feng, J. Tang, J. Fang, J. Zhang, H. Lu, and J. Yu, “Design and optimization of surface plasmon resonance sensor based on multimode fiber,” Opt. Quantum Electron. 47(6), 1495–1502 (2015).
[Crossref]

Sens. Actuators, B (2)

J. Zhao, S. Cao, C. Liao, Y. Wang, G. Wang, X. Xu, C. Fu, G. Xu, J. Lian, and Y. Wang, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sens. Actuators, B 230, 206–211 (2016).
[Crossref]

H. Guner, E. Ozgur, G. Kokturk, M. Celik, E. Esen, A. E. Topal, S. Ayas, Y. Uludag, C. Elbuken, and A. Dana, “A smartphone based surface plasmon resonance imaging (SPRi) platform for on-site biodetection,” Sens. Actuators, B 239, 571–577 (2017).
[Crossref]

Sensors (1)

N. Luan, R. Wang, W. Lv, Y. Lu, and J. Yao, “Surface plasmon resonance temperature sensor based on photonic crystal fibers randomly filled with silver nanowires,” Sensors 14(9), 16035–16045 (2014).
[Crossref]

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Figures (6)

Fig. 1.
Fig. 1. (a) Schematic diagram of the proposed sensing system. (b) Sectional view of the SPR sensor. (c) Transmission spectra of the SPR sensor under different temperatures. TR, transition region; FR, flat region; RFT, residual fiber thickness.
Fig. 2.
Fig. 2. The microscope images of the flat region (a) and the transitional region (b). (c) Measured residual fiber thickness at the polished region by an optical microscope. (d) Cross-sectional image of the side-polished fiber (outlined by the red dash line) obtained by scanning electron microscope.
Fig. 3.
Fig. 3. (a) SPR sensor based on side-polished fiber. (b) Schematic diagram of the coupling module. (c) Interface of the designed application on smart-phone. (d) Schematic diagrams of the assembled sensing system and the experimental setup.
Fig. 4.
Fig. 4. Experimental results based on the smart-phone SPR platform. (a) The light spots captured by the camera for the water at different temperatures. The dependences of (b) RC and (c) MC gray values on temperature, respectively. (d) The relationship of relative gray value and temperature.
Fig. 5.
Fig. 5. Temperature responses of the two control sensors: the ordinary multi-mode optical fiber (red dot) and the uncoated side-polished fiber (blue triangle).
Fig. 6.
Fig. 6. Experiments and results based on the traditional fiber SPR platform. (a) Schematic diagram of the experimental setup. (b) Transmission spectra of the SPR sensor under different temperatures. (c) Resonance wavelength as a function of temperature and the linear fitting line. (d) Transmittance as a function of temperature at different wavelengths and the corresponding linear fitting results.

Tables (1)

Tables Icon

Table 1. Comparison between the smart-phone and conventional spectrometer-based platform.

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