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- Amperometric Actuation Technique (1)
- Biosensors (1)
- CMOS Process (1)
- Chemical Sensors (1)
- Detection Range (1)
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- ISFET Glucose Sensor (1)
- Ion Sensitive Field Effect Transistors (1)
- Ladder Type Working Electrode (1)
- Lift-Off Process (1)
- Microactuators (1)
- Microelectrodes (1)
- Patient Monitoring (1)
- Pt (1)
- Response Magnitude (1)
- Response Time (1)
- Sensor Size (1)
- Structure Actuation System (1)
- Working Electrode (1)
Articles 1 - 2 of 2
Full-Text Articles in Engineering
Effect Of Cl Incorporation On The Performance Of Amorphous Silicon Thin Film Transistor, Jong Hyuni Choi, Chang-Soo Kim, Sung Ki Kim, Jin Jang
Effect Of Cl Incorporation On The Performance Of Amorphous Silicon Thin Film Transistor, Jong Hyuni Choi, Chang-Soo Kim, Sung Ki Kim, Jin Jang
Electrical and Computer Engineering Faculty Research & Creative Works
No abstract provided.
Miniaturized Isfet Glucose Sensor Including A New Structure Actuation System, Chang-Soo Kim, Hwa-Il Seo, Chae-Hyang Lee, Byung-Ki Sohn
Miniaturized Isfet Glucose Sensor Including A New Structure Actuation System, Chang-Soo Kim, Hwa-Il Seo, Chae-Hyang Lee, Byung-Ki Sohn
Electrical and Computer Engineering Faculty Research & Creative Works
A new principle of an amperometric actuation technique was incorporated in the ISFET glucose sensor. The ISFET is fabricated by the CMOS process and the platinum working electrode is deposited by the lift-off process. A sensor with a specially designed ladder type working electrode exhibits improved operation in response time, response magnitude and detection range. An expectation concerning the reduction of sensor size is also discussed.