[1] Chtanov A, Gal M. Differential optical detection of hydrogen gas in the atmosphere. Sensors and Actuators B ,2001,79:196~ 199
[2] Tobiska P, Hugon O, Trouillet A, et al. An integrated optic hydrogen sensor based on SPR on palladium. Sensors and Actuators B ,2001, 74 :168 ~ 172
[3] Jung C C, Saaski E W, McCrae D A. Fiber optic hydrogen sensor. Proceedings of SPIE, 1998,3489:9 ~ 15
[4] Sutapun B, Tabib-Azar M, Kazemi A. Pd-coated elastooptic fiber optic Bragggrating sensors for multiplexed hydrogen sensing. Sensors and Actuators B, 1999,60:27 ~ 34
[5] Homola J, Yee S S, Gauglitz G. Surface plasmon resonance sensors: review. Sensors and Acuators B, 1999,54:3 ~ 15
[6] Hunter G W, Sacramento R, Makel D B, et al.Microfabricated hydrogen sensor technology for aerospace and commercial applications. Proceedings of SPIE , 1997,2270:77 ~ 88
[7] Liu P,Lee Se-H,Cheong H M,et al. Stable Pd/V2O5 optical H2 sensor. Journal of The Electrochemical Society, 2002,149(3): H76 ~ H80
[8] Hetherington D L, Grant R W, Hughes K L, et al. A portable low-power hydrogen gas sensor system for wide range H2 detection. IEEE Circuits and Systems Proceedings of the 37th Midwest Symposium, 1994,1:199 ~ 201
[9] Favier F,Walter E C,Zach M P,et al. Hydrogen sensors and switches from electrodeposited palladium mesowire arrays.Science ,2001,293 (21) :2227 ~ 2231
[10] Bevenot X, Trouillet A, Veillas C, et al. Hydrogen leak detection using an optical fibre sensor for aerospace applications. Sensors and Actuators B, 2000,67: 57 ~ 67
[12] Weiss M N, Srivastava R, Groger H, et al. A theoretical investingation of environmental monitoring using surface plasmon resonance waveguide sensors. Sensors and Actuators A, 1996,51(2 ~3): 211 ~217
[13] Conese T, Tavlykaev R, Huassell C P, et al. Finite element analysis of LiNbO3 waveguides with Si or Si/SiO2overlay. J Lightwave Tech, 1998,16(6): 1113 ~ 1122
[16] Burke J J, Stegeman G I, Tamir T, et al. Smfacepolariton-like waves guided by thin lossy metal films. Phys Rev B, 1986,33(8): 5186 ~5201
