Air quality prediction by using semiconducting gas sensor with newly fabricated SmFeO3 film
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Satoshi Okano | Yoshihiko Sadaoka | Hiromichi Aono | Y. Sadaoka | Y. Itagaki | Yoshiteru Itagaki | H. Aono | Munenobu Tomoda | M. Tomoda | S. Okano | Yoshiteru Itagaki
[1] J. Shiokawa,et al. CO gas sensitivities of reduced perovskite oxide LaCoO3 − x☆ , 1988 .
[2] H. Wise,et al. Perovskite catalysts for methane combustion , 1990 .
[3] M. Sakamoto,et al. NO2-sensitive LaFeO3film prepared by thermal decomposition of the heteronuclear complex, {La[Fe(CN)6]·5H2O}x , 1993 .
[4] N. Minh. Ceramic Fuel Cells , 1993 .
[5] E. Traversa,et al. NO2 sensitive LaFeO3 thin films prepared by r.f. sputtering , 1995 .
[6] E. Traversa,et al. Preparation and characterization of perovskite-type Ln′xLn″1–xCoO3 for electroceramic applications , 1996 .
[7] E. Traversa,et al. Preparation and structural characterization of perovskite-type LaxLn1−x″CoO3 by the thermal decomposition of heteronuclear complexes, LaxLn1−x″| Co(CN)6| · nH2O (Ln″ Sm and Ho) , 1996 .
[8] M. Kakihana. Invited review “sol-gel” preparation of high temperature superconducting oxides , 1996 .
[9] M. Carotta,et al. Microstructural evolution of nanosized LaFeO3 powders from the thermal decomposition of a cyano-complex for thick film gas sensors , 1997 .
[10] Y. Sadaoka,et al. Thermal decomposition products of heteronuclear CuRe complexes, CuRE(dhbaen)(NO3)·nH2O (RELa, Eu, Gd, Tb, Dy, Y, Ho, Er, Tm, Yb, and Lu) , 1997 .
[11] Giuliano Martinelli,et al. Gas-sensitive electrical properties of perovskite-type SmFeO3 thick films , 1998 .
[12] E. Traversa,et al. Thermal evolution of nanosized LaFeO3 powders from a heteronuclear complex, La[Fe(CN)6]·nH2O , 1998 .
[13] Gualtiero Gusmano,et al. Design of Ceramic Materials for Chemical Sensors: SmFeO3 Thick Films Sensitive to NO2 , 1999 .
[14] Giuliano Martinelli,et al. Thick-Film Gas Sensors Based on Nano-Sized Semiconducting Oxide Powders , 1999 .
[15] Matteo Ferroni,et al. Screen-printed perovskite-type thick films as gas sensors for environmental monitoring , 1999 .
[16] E. Traversa,et al. Preparation of YBa2Cu3O7−δ powders by the thermal decomposition of a heteronuclear complex, CuY1/3Ba2/3(dhbaen)(NO3)1/3(H2O)3 , 1999 .
[17] Jun Akikusa,et al. Characterization of solid oxide fuel cell using doped lanthanum gallate , 2000 .
[18] Y. Sadaoka,et al. Effects of Sintering Atmosphere on Surface Structure and Electrical Properties of LaFeO3 Prepared by Thermal Decomposition of La [Fe(CN)6]⋅4H2O , 2000 .
[19] E. Traversa,et al. Preparation of Nanosized Perovskite‐Type LaMnO3 Powders Using the Thermal Decomposition of a Heteronuclear Complex, LaMn(dhbaen)(OH)(NO3)(H2O)4 , 2001 .
[20] Enrico Traversa,et al. Crystallographic characterization and NO2 gas sensing property of LnFeO3 prepared by thermal decomposition of LnFe hexacyanocomplexes, Ln[Fe(CN)6]·nH2O, Ln = La, Nd, Sm, Gd, and Dy , 2003 .
[21] E. Traversa,et al. Design of ceramic materials for chemical sensors : Effect of SmFeO3 processing on surface and electrical properties , 2004 .