All-fiber-optic temperature sensor based on reduced graphene oxide

Laser Physics Letters

Volumn 11, Issue 3, 2014, Pages

  Yu, Jianhui ^a   Zhang, Jun ^a   Liao, Guozhen ^a   Jin, Shaoshen ^a   Cao, Dong ^a   Wei, Qingsong ^a   Lu, Huihui ^a   Cai, Xiang ^a   Tan, Shaozao ^a   Xiao, Yi ^a   Tang, Jieyuan ^a   Luo, Yunhan ^a   Chen, Zhe ^a  

^a JINAN UNIVERSITY   (China)

Author keywords

fiberoptic sensing; reduced graphene oxide; sidepolished fiber; temperature sensor

Indexed keywords

EID: 84894284760     PISSN: 16122011     EISSN: 1612202X     Source Type: Journal    
DOI: 10.1088/1612-2011/11/3/035901     Document Type: Article

References (30)

1. Bolotin K, Sikes K, Jiang Z, Klima M, Fudenberg G, Hone J, Kim P and Stormer H L 2008 Ultrahigh electron modbility in suspended graphene Solid State Commun. 146 351
2. Balandin A A, Ghosh S, Bao W, Calizo I, Teweldebrhan D, Miao F and Lau C 2008 Superior thermal conductivity of single-layer graphene Nano Lett. 8 902
3. Li X, Zhang G, Bai X, Sun X, Wang X, Wang E and Dai H 2008 Highly conducting graphene sheets and Langmuir-Blodgett films Nature Nanotechnol. 3 538
4. Xia F, Mueller T, Lin Y, Valdes-Garcia A and Avouris P 2009 Ultrafast graphene photodetector Nature Nanotechnol. 4 839
5. Nair R R, Blake P, Grigorenko A N, Novoselov K S, Booth T J, Stauber T, Peres N M R and Geim A K 2008 Fine structure constant defines visual transparency of graphene Science 320 1308 (Pubitemid 351929460)
6. Dawlty J M, Shivaramann S, Strait J, George P, Changdrashkhar M, Rana F, Spencer M G, Veksler D and Chen X 2008 Measurement of the optical absorption spectra of epitaxial graphene from terahertz to visible Appl. Phys. Lett. 93 131905
7. Yavari F, Chen Z, Thomas A V, Ren W, Cheng H and Koratkar N 2011 High sensitivity gas detection using a macroscopic three-dimensional graphene foam network Sci. Rep. 1 1
8. Lu C, Yang H, Zhu C, Chen X and Chen G 2009 A graphene platform for sensing biomolecules Angew. Chem. Int. Edn 48 4785
9. Liu M, Yin X, Ulin-Avila E, Geng B, Zentgraf T, Ju L, Wang F and Zhang X 2011 A graphene-based broadband optical modulator Nature 474 64
10. Bao Q, Zhang H, Wang B, Ni Z, Haley C, Lim Y, Wang Y, Tang D and Loh K 2011 Broadband graphene polarizer Nature Photon. 5 411
11. Kim J T and Choi C G 2012 Graphene-based polymer waveguide polarizer Opt. Express 20 3556
12. Tang J, Chen Z, Fan R, Yu J and Zhang J 2011 Optical fiber sensor for the concentration of acetic acid based on fiber side polishing technique J. Appl. Opt 32 115
13. Zhang Y, Chen Z, Jiang P, Liu L, Zeng Y and Bai C 2007 All-fiber thermo-optical variable optical attenuator Chin. J. Lasers 34 1110
14. Chen Z, Liao Y, Hu Y, Xiong S, Meng Z and Jin W 2000 Thermally poled PANDA fibre device with microstrip electrode Electron. Lett. 36 1839 (Pubitemid 32020485)
15. Fan R, Chen Z, Liu L and Xiao Y 2009 Optical fiber refractive sensor with double reflective wavelengths based on side polished fiber Bragg grating Chin. J. Lasers 36 1134
16. Yu J, Li H, Hsiao V K, Tang J, Zhai Y, Du Y, Zhang J, Xiao Y and Chen Z 2012 Light power sensor by using a photosensitive liquid crystal hybrid film on side polished fiber Proc. SPIE 8421 842196
17. Yoon J, Seo G, Cho K, Kim E, Kim S and Kang S 2003 Controllable in-line UV sensor using a side-polished fiber coupler with photofunctional polymer IEEE Photon. Technol. Lett. 15 837-9
18. Fu W, Hsiao V, Tang J, Wu M and Chen Z 2011 All fiber-optic sensing of light using side-polished fiber overlaid with photoresponsive liquid crystals Sensors Actuators B 156 423
19. Chen Z, Qin J, Pan H, Zhang J, Xiao Y and Yu J 2010 All-fiber integrated optical power monitor-controller Chin. J. Lasers 37 1047
20. Hsiao V, Fu W, Huang C, Chen Z, Li S, Yu J, Zhang J and Tang J 2012 Optically switchable all-fiber optic polarization rotator Opt. Commun. 285 1155
21. Ma J, Jin W, Ho H L and Dai J 2012 High-sensitivity fiber-tip pressure sensor with graphene diaphragm Opt. Lett. 37 2493
22. Calizo I, Ghosh S, Bao W, Miao F, Lau C and Balandin A A 2009 Raman nanometrology of graphene: temperature and substrate effects Solid State Commun. 149 1132
23. He X, Liu Z, Wang D, Yang M, Liao C R and Zhao X 2012 Passively mode-locked fiber laser based on reduced graphene oxide on microfiber for ultra-wide-band doublet pulse generation J. Lightwave Technol. 30 7
24. Hummers W S and Offeman R E 1958 Preparation of graphitic oxide J. Am. Chem. Soc. 80 1339
25. Cai X, Tan S, Xie A, Lin M, Liu Y, Zhang X, Lin Z, Wu T and Mai W 2011 Conductive methyl blue-functionalized reduced graphene oxide with excellent stability and solubility in water Mater. Res. Bull. 46 2353
26. Ferrari A C, Meyer J C, Scardaci V, Casiraghi C, Lazzeri M, Mauri F, Piscanec S, Jiang D, Novoselov K S, Roth S and Geim A K 2006 Raman spectrum of graphene and graphene layers Phys. Rev. Lett. 97 187401 (Pubitemid 44658281)
27. Ferrari A C 2007 Raman spectroscopy of graphene and graphite: disorder, electron-phonon coupling, doping and nonadiabatic effects Solid State Commun. 143 47 (Pubitemid 46874496)
28. Liang Z, Cai X, Tan S, Yang P, Zhang L, Yu X, Chen K, Zhu H, Liu P and Mai W 2012 Fabrication of n-type ZnO nanowire/graphene/p-type silicon hybrid structures and electrical properties of heterojunctions Phys. Chem. Chem. Phys. 14 16111
29. Falkovsky L A 2008 Optical properties of graphene J. Phys. Conf. Ser. 129 012004
30. Wright A R and Zhang C 2010 Dynamic conductivity of graphene with electron-LO-phonon interaction Phys. Rev. B 81 165413