References
- Toyota Eng. v.28 no.1 Development of TOYOTA O₂ Sensor K.Uchida;R.Okubo;M.Kawai
- J. Brit. Ceram. Soc. v.80 no.2 The Use of Electrical Ceramic Devices to Control Internal Combustion Engines P.McGeehin
- Sensor Device Handbook Oxygen Sensor S.Hirasaki
- Amer. Ceram. Soc. Bull. v.54 no.3 TiO₂as an Air to Fuel Ratio Sensor for Automobile Exhausts T.Y.Tien;H.L.Stadler;E.F.Gibbons;P.J.Zacmanidis
- Amer. Ceram.Soc. Bull. v.63 no.5 Fabrication and Performance Evaluation of a Titania Automotive Exhaust Gas Sensor A.L.Micheli
- Brit. J. Appl. Phys. v.16 no.1493 Variation with Time of the Electrical Conductivity of Rutile M.G.Harwood
- J. Appl. Phys. v.36 no.11 Conduction Phenomena in Rutile Single Crystals J.A van Raalte
- J. Phys. Chem. Solids v.28 no.861 Time Dependent Conductivity in Titanium Dioxide H.B.Whitehurst;J.J.Morrison;F.L.English;B.M.Warmkessel;C.J.Kevane
- 서울대학교 석사 학위 논문 Rutile소결체의 전기전도도 경시 변화 연구 조운조
- Electrical Conductivity in Ceramics and Glass Experimental Techniques R.N.Blumenthal;M.A.Seitz;N.M.Tallan(ed.)
- Rev. Sci. Instrum. v.52 no.4 Modified Mixed-Gas Flow Method for Controlling the Oxygen Partial Pressure in a Furnace, using a CO-CO₂System N.Kimizuka;E.Takayama
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서울대학교 석사 학위 논문
$TiO_2-V_2O_5$ Humidity Sensor의 미세구조와 전기적 특성에 관한 연구 한응학 - Nonstoichiometric Oxides Diffusion in Nonstoichiometric Oxides Hj.Matzke;O.T.Sorensen(ed.)
- Progr. Sol. State. Chem. v.10 no.1 Equations for transport in Solid Oxides and Sulfides of Transition Metals C.Wagner