Thin solid state electrochemical gas sensors

A new family of electrochemical gas sensors based on the use of thin and thick film technologies has been under study in our Laboratory for some years. This microelectronics approach allowed us to design solid state devices for oxygen and hydrogen detection. Our experimental results evince two major interests, besides those associated with sensor miniaturization, lower price, reliability, etc.: (1) Wide variety of available materials and substances, local modification of their composition and associated properties using techniques such as thermal diffusion and ion implantation. (2) Possible creation of complex functions using different multi-layered geometries; for example, the catalytic activity of a platinum electrode, for the CO/O2 reaction, may be modified by changing thickness, texture and partial capping of this electrode. Two types of new sensors using this approach are described: a zirconia-based oxygen sensor for combustion control and a hydrogen sensor working at room temperature. The experimental behaviour of these devices is presented and discussed.

[1]  A. Howe,et al.  Studies of layered uranium(VI) compounds. I. High proton conductivity in polycrystalline hydrogen uranyl phosphate tetrahydrate , 1979 .

[2]  J. Kennedy,et al.  Solid Electrolyte Properties and Crystal Forms of Lead Fluoride , 1973 .

[3]  Ingemar Lundström,et al.  Hydrogen sensitive mos-structures: Part 1: Principles and applications , 1981 .

[4]  J. Zemel,et al.  Non-fet chemical sensors , 1981 .

[5]  C. O. Tiller,et al.  A Solid‐State Electrode for Reducible Gases , 1973 .

[6]  M. Kleitz,et al.  Electrode Processes in Solid State Ionics , 1975 .

[7]  Fred Y. Chen,et al.  Preparation of Vacuum‐Deposited Films of Rubidium Silver Iodide , 1973 .

[8]  Y. Danto,et al.  A.c. study of metal-β-PbF2-metal thin film structures , 1979 .

[9]  C. Lucat,et al.  A Pb|PbF2|BiF3|Bi thin solid film reversible galvanic cell , 1978 .

[10]  AC electrical properties of evaporated cerous fluoride films , 1972 .

[11]  J. Schnell,et al.  Composition, structure, and ac conductivity of rf‐sputtered calcia‐stabilized zirconia thin films , 1977 .

[12]  F. Szofran,et al.  Growth and characterization of doped ZrO2 and CeO2 films deposited by bias sputtering , 1977 .

[13]  P. Bro,et al.  A High‐Voltage, Solid‐State Battery System I . Design Considerations , 1969 .

[14]  G. Velasco,et al.  Study of calcia‐stabilized zirconia thin‐film sensors , 1977 .

[15]  P. Colomban,et al.  β-alumina-like thin films , 1981 .

[16]  C. Wickersham,et al.  Morphological and electrical properties of rf sputtered Y2O3‐doped ZrO2 thin films , 1976 .

[17]  J. Kennedy Thin film solid electrolyte systems , 1977 .