Current status of silicon carbide based high-temperature gas sensors

Author

Lloyd, Ashley ; Tobias, Peter ; Baranzahi, Amir ; Mårtensson, Per ; Lundström, Ingemar

Author_Institution

Lab. of Appl. Phys., Linkoping Univ., Sweden

Volume

46

Issue

3

fYear

1999

fDate

3/1/1999 12:00:00 AM

Firstpage

561

Lastpage

566

Abstract

Silicon carbide (SiC) based field effect gas sensors can be operated at very high temperatures. Catalytic metal-insulator-silicon carbide (MISiC) Schottky diodes respond very fast to a change between a reducing and an oxidizing atmosphere, and cylinder-specific combustion engine monitoring has been demonstrated. The sensors have also been suggested for high-temperature electronic nose applications. Car applications and other harsh environments put very strong requirements on the long-term stability of the sensors. Here we review the current status of the field of SiC based Schottky diode gas sensors with emphasis on the work in our group. Basic work on understanding of the detection mechanism and the influence of interfacial layers on the long-term stability of the sensors is reviewed. The direction of future research and device development in our group is also discussed

Keywords

MIS devices; Schottky diodes; automotive electronics; catalysis; gas sensors; high-temperature electronics; silicon compounds; wide band gap semiconductors; SiC; car; catalytic MIS Schottky diode; combustion engine; electronic nose; exhaust gas monitoring; field effect device; harsh environment; high temperature gas sensor; interfacial layer; silicon carbide; stability; Atmosphere; Combustion; Engines; Gas detectors; Metal-insulator structures; Monitoring; Schottky diodes; Silicon carbide; Stability; Temperature sensors;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/16.748877

Filename

748877