[1] Gopel W, Schierbaum K D. SnO2 sensors: Current status and future prospects. Sensors and Actuators (B), 1995, 26(1):1~12
[2] Bakin A S, Bestaev M V, Dimitrov D T et al.. SnO2 based gas sensitive sensor. Thin Solid Films, 1997, 296(1,2):168~171
[3] Lampe U, Muller J. Thin-film oxygen sensors made of reactively sputtered ZnO. Sensors and Actuators, 1989, 18(3,4):269~284
[4] Bonhote P, Gogniat E, Gratzel M et al.. Novel electrochromic devices based on complementary nanocrystalline TiO2 and WO3 thin films. Thin Solid Films, 1999, 350(1,2):269~275
[5] Capone S, Rella R, Siciliano P et al.. A comparison between V2O5 and WO3 thin films as sensitive elements for NO detection. Thin Solid Films, 1999, 350(1,2):264~268
[6] Kocemba I, Paryjczak T. Metal films on a SnO2 surface as selective gas sensors. Thin Solid Films, 1996, 272(2):15~17
[7] Sulz G, Kuhner G, Reiter H et al.. Ni, In and Sb implanted Pt and V catalysed thin-film SnO2 gas sensors. Sensors and Actuators (B), 1993, 16(1~3):390~395
[8] Vlachos D S, Papadopoulos C A, Avaritsiotis J N. On the eletronic interaction between additives and semiconducting oxide gas sensors. Appl. Phys. Lett., 1996, 69(5):650~652
[9] Yu J H, Choi G M. Electrical and CO gas sensing properties of ZnO-SnO2 composites. Sensors and Actuators (B), 1998, 52(3):251~256
[10] Homola J, Yee S S, Gauglitz G. Surface plasmon resonance sensors: Review. Sensors and Actuators (B), 1999, 54(1,2):3~15
[11] Podgorsek R P, Sterkenburgh T, Wolters J et al.. Optical gas sensing by evaluating ATR leaky mode spectra. Sensors and Actuators (B), 1997, 39(1~3):349~352
[12] Benmoussa M, Ibnouelghazi E, Bennouna A et al.. Structure,electrical and optical properties of sputtered vanadium pentoxide thin films. Thin Solid Films, 1995, 265(1,2):22~28
[14] Lee P A. Optical and Electrical Properties. Holland: D. Reidel Publishing Company, 1976. 29
[15] Lee P A. Optical and Electrical Properties. Holland: D. Reidel publishing company, 1976. 27