Low frequency noise characteristics of resistor- and Si MOSFET-type gas sensors fabricated on the same Si wafer with In2O3 sensing layer

Low frequency noise characteristics of resistor- and Si MOSFET-type gas sensors fabricated on the same Si wafer with In2O3 sensing layer

•The LFN characteristics of resistor- and FET-type gas sensor are analyzed.•A 12 nm thick In2O3 films are deposited as a sensing layer by radio frequency magnetron sputtering method.•FET-type sensor has at least 10 times less LFN power than the resistor-type gas sensor.•Gas to Air Noise Ratio is int...

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Veröffentlicht in:Sensors and actuators. B, Chemical Chemical, 2020-09, Vol.318, p.128087, Article 128087
Hauptverfasser: Shin, Wonjun, Jung, Gyuweon, Hong, Seongbin, Jeong, Yujeong, Park, Jinwoo, Jang, Dongkyu, Park, Byung-Gook, Lee, Jong-Ho
Format: Artikel
Sprache:eng
Schlagworte:
1/fnoise
FET-type gas sensor
Field effect transistors
Figure of merit
Gas sensors
Gas to Air Noise Ratio (GANR)
Indium oxides
LF noise
Low frequency noise (LFN)
Magnetron sputtering
Metal oxide semiconductors
MOSFETs
Noise
Resistor-type gas sensor
Semiconductor devices
Sensors
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container_end_page
container_issue
container_start_page 128087
container_title Sensors and actuators. B, Chemical
container_volume 318
creator Shin, Wonjun
Jung, Gyuweon
Hong, Seongbin
Jeong, Yujeong
Park, Jinwoo
Jang, Dongkyu
Park, Byung-Gook
Lee, Jong-Ho
description •The LFN characteristics of resistor- and FET-type gas sensor are analyzed.•A 12 nm thick In2O3 films are deposited as a sensing layer by radio frequency magnetron sputtering method.•FET-type sensor has at least 10 times less LFN power than the resistor-type gas sensor.•Gas to Air Noise Ratio is introduced as a new figure of merit to evaluate the LFN characteristics during the gas reaction. By analyzing the Low Frequency Noise (LFN) characteristics of the resistor-type and the Si metal oxide semiconductor Field Effect Transistor (FET)-type gas sensors fabricated on the same wafer, the intrinsic device noise and the additional noise generated from the gas reaction are systemically examined. Sensing material, n-type Indium-Oxide (In2O3) film, is deposited using the radio frequency magnetron sputtering method. Unlike the FET-type gas sensor, the LFN characteristics of the resistor-type gas sensor are affected by the deposition condition of the sensing material. It is shown that the FET-type sensor has at least 10 times less LFN power than the resistor-type gas sensor despite its smaller size. Gas to Air Noise Ratio (GANR) is introduced as a new figure of merit to evaluate and compare the LFN characteristics during the gas reaction in both resistor- and FET-type gas sensors with the sensing layer prepared by different process conditions. The GANRs of the resistor-type sensors range from ∼2 to 4, which demonstrates that the reaction between the gas molecules and the sensing material generates a fluctuation that exceeds the intrinsic noise of devices. However, the FET-type gas sensors have a constant value of GANR (∼1) regardless of the operation region, showing that the FET-type gas sensors have better performance in terms of noise.
doi_str_mv 10.1016/j.snb.2020.128087
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By analyzing the Low Frequency Noise (LFN) characteristics of the resistor-type and the Si metal oxide semiconductor Field Effect Transistor (FET)-type gas sensors fabricated on the same wafer, the intrinsic device noise and the additional noise generated from the gas reaction are systemically examined. Sensing material, n-type Indium-Oxide (In2O3) film, is deposited using the radio frequency magnetron sputtering method. Unlike the FET-type gas sensor, the LFN characteristics of the resistor-type gas sensor are affected by the deposition condition of the sensing material. It is shown that the FET-type sensor has at least 10 times less LFN power than the resistor-type gas sensor despite its smaller size. Gas to Air Noise Ratio (GANR) is introduced as a new figure of merit to evaluate and compare the LFN characteristics during the gas reaction in both resistor- and FET-type gas sensors with the sensing layer prepared by different process conditions. The GANRs of the resistor-type sensors range from ∼2 to 4, which demonstrates that the reaction between the gas molecules and the sensing material generates a fluctuation that exceeds the intrinsic noise of devices. However, the FET-type gas sensors have a constant value of GANR (∼1) regardless of the operation region, showing that the FET-type gas sensors have better performance in terms of noise.</description><identifier>ISSN: 0925-4005</identifier><identifier>EISSN: 1873-3077</identifier><identifier>DOI: 10.1016/j.snb.2020.128087</identifier><language>eng</language><publisher>Lausanne: Elsevier B.V</publisher><subject>1/fnoise ; FET-type gas sensor ; Field effect transistors ; Figure of merit ; Gas sensors ; Gas to Air Noise Ratio (GANR) ; Indium oxides ; LF noise ; Low frequency noise (LFN) ; Magnetron sputtering ; Metal oxide semiconductors ; MOSFETs ; Noise ; Resistor-type gas sensor ; Semiconductor devices ; Sensors</subject><ispartof>Sensors and actuators. 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B, Chemical</title><description>•The LFN characteristics of resistor- and FET-type gas sensor are analyzed.•A 12 nm thick In2O3 films are deposited as a sensing layer by radio frequency magnetron sputtering method.•FET-type sensor has at least 10 times less LFN power than the resistor-type gas sensor.•Gas to Air Noise Ratio is introduced as a new figure of merit to evaluate the LFN characteristics during the gas reaction. By analyzing the Low Frequency Noise (LFN) characteristics of the resistor-type and the Si metal oxide semiconductor Field Effect Transistor (FET)-type gas sensors fabricated on the same wafer, the intrinsic device noise and the additional noise generated from the gas reaction are systemically examined. Sensing material, n-type Indium-Oxide (In2O3) film, is deposited using the radio frequency magnetron sputtering method. 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B, Chemical</jtitle><date>2020-09-01</date><risdate>2020</risdate><volume>318</volume><spage>128087</spage><pages>128087-</pages><artnum>128087</artnum><issn>0925-4005</issn><eissn>1873-3077</eissn><abstract>•The LFN characteristics of resistor- and FET-type gas sensor are analyzed.•A 12 nm thick In2O3 films are deposited as a sensing layer by radio frequency magnetron sputtering method.•FET-type sensor has at least 10 times less LFN power than the resistor-type gas sensor.•Gas to Air Noise Ratio is introduced as a new figure of merit to evaluate the LFN characteristics during the gas reaction. By analyzing the Low Frequency Noise (LFN) characteristics of the resistor-type and the Si metal oxide semiconductor Field Effect Transistor (FET)-type gas sensors fabricated on the same wafer, the intrinsic device noise and the additional noise generated from the gas reaction are systemically examined. Sensing material, n-type Indium-Oxide (In2O3) film, is deposited using the radio frequency magnetron sputtering method. Unlike the FET-type gas sensor, the LFN characteristics of the resistor-type gas sensor are affected by the deposition condition of the sensing material. It is shown that the FET-type sensor has at least 10 times less LFN power than the resistor-type gas sensor despite its smaller size. Gas to Air Noise Ratio (GANR) is introduced as a new figure of merit to evaluate and compare the LFN characteristics during the gas reaction in both resistor- and FET-type gas sensors with the sensing layer prepared by different process conditions. The GANRs of the resistor-type sensors range from ∼2 to 4, which demonstrates that the reaction between the gas molecules and the sensing material generates a fluctuation that exceeds the intrinsic noise of devices. However, the FET-type gas sensors have a constant value of GANR (∼1) regardless of the operation region, showing that the FET-type gas sensors have better performance in terms of noise.</abstract><cop>Lausanne</cop><pub>Elsevier B.V</pub><doi>10.1016/j.snb.2020.128087</doi><orcidid>https://orcid.org/0000-0002-6719-7608</orcidid><orcidid>https://orcid.org/0000-0003-3559-9802</orcidid></addata></record>
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1873-3077
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source ScienceDirect Journals (5 years ago - present)
subjects 1/fnoise
FET-type gas sensor
Field effect transistors
Figure of merit
Gas sensors
Gas to Air Noise Ratio (GANR)
Indium oxides
LF noise
Low frequency noise (LFN)
Magnetron sputtering
Metal oxide semiconductors
MOSFETs
Noise
Resistor-type gas sensor
Semiconductor devices
Sensors
title Low frequency noise characteristics of resistor- and Si MOSFET-type gas sensors fabricated on the same Si wafer with In2O3 sensing layer
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