• Title/Summary/Keyword: $WO_3$ gas sensor

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Gas Sensing Characteristics of WO3-Doped SnO2 Thin Films Prepared by Solution Deposition Method (용액적하법으로 제조된 WO3 첨가 SnO2 박막의 가스감응 특성)

  • Choi, Joong-Ki;Cho, Pyeong-Seok;Lee, Jong-Heun
    • Korean Journal of Materials Research
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    • v.18 no.4
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    • pp.193-198
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    • 2008
  • $WO_3$-doped $SnO_2$ thin films were prepared in a solution-deposition method and their gas-sensing characteristics were investigated. The doping of $WO_3$ to $SnO_2$ increased the response ($R_a/R_g,\;R_a$: resistance in air, $R_g$: resistance in gas) to $H_2$ substantially. Moreover, the $R_a/R_g$ value of 10 ppm CO increased to 5.65, whereas that of $NO_2$ did not change by a significant amount. The enhanced response to $H_2$ and the selective detection of CO in the presence of $NO_2$ were explained in relation to the change in the surface reaction by the addition of $WO_3$. The $WO_3$-doped $SnO_2$ sensor can be used with the application of a $H_2$ sensor for vehicles that utilize fuel cells and as an air quality sensor to detect CO-containing exhaust gases emitted from gasoline engines.

Fabrication and Characteristics of WO$_3$ Thick Film Gas Sensor for Detecting NO$\chi$ Gas Using Screen Printing Technique (스크린 프린팅법을 이용한 NO$\chi$ 감지용 WO$_3$ 후막형 가스센서의 제조 및 특성연구)

  • 박종현;김태균;송호근;김광호
    • Journal of the Korean Ceramic Society
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    • v.36 no.3
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    • pp.237-243
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    • 1999
  • 스크린 프린팅법을 이용하여 NOX 감지용 WO3 후막형 가스센서를 제조하였다. 본 실험에서는 감지막의 소성 온도에따른 감도변화 및 Ru을 첨가함으로써 감도의 증진을 중점적으로 조사하였다. 또한 NO2 50 ppm하에서 CO, H2, CH4 그리고 i-C4H10등의 가스에 대하여 cross sensitivity를 조사하였다. WO3 가스센서는 소성온도 50$0^{\circ}C$, 작동온도 30$0^{\circ}C$에서 최대감도를 얻었다. 순수한 WO3에 Ru(0.004 wt%)을 첨가시 NO2 및 NO 가스에 대한 감도가 크게 증진되었다. 그러나 순수한 WO3 센서는 Ru(0.004 wt%)이 첨가된 WO3 센서보다 더 우수한 cross sensitivity를 보였다.

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Fabrication and Gas Sensing Properties of WO$_3$Thick Film Gas Sensor Dependent on Heat-Treatment Condition (소성 조건에 따른 WO$_3$계 후막센서소자의 제조 및 응답특성)

  • 정용근;엄우식;이희수;최성철
    • Journal of the Microelectronics and Packaging Society
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    • v.6 no.2
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    • pp.63-68
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    • 1999
  • We have fabricated $WO_3$ thick film gas sensor under various firing conditions in order to study gas sensing properties in terms of the variation of microstructure and non-stoichiometric structure of gas sensing layer. $WO_3$ paste mixed homogeneously with organic vehicle was coated by screen printing method on alumina substrate composed of Au electrode and $RuO_2$heater on each side. To change filing condition, sensing materials were fared at 600-$800^{\circ}C$ for 1 hour and refired at $700^{\circ}C$ for 1 hour in the mixtures of $_Ar/O2$gas. In the result of heat-treatment, $WO_3$ gas sensor fared at $700^{\circ}C$ showed best gas sensing properties of 210 gas sensitivity and 2 second response time and the best firing environment was 40-50% of $Ar/O_2$gas.

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The Fabrication and $NO_X$-sensing characteristics of $WO_3$-based semiconductor gas sensor for detecting sub-ppm level of $NO_X$ (초미량의 이산화질소가스 감지를 위한 텅스텐산화물계 반도체 가스 센서의 제조 및 $NO_X$ 감응 특성)

  • 이대식;임준우
    • Proceedings of the IEEK Conference
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    • 1998.10a
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    • pp.601-604
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    • 1998
  • NOX detecting gas sensors using TiO2 doped tungsten oxide semiconductor were prepared and their electrical and sensing characteristics have been investigated. In normal air condition, the sensors of WO3, TiO2 doped WO3 show grain boundary heights of 0.34 eV, 0.25 eV, respectively. The grain boundary barrier energy variation was increased by doping TiO2 into large variation of resistance to NOX gases. And doping the TiO2 4 wt.%, the particle size of WO3 polycrystal films showed higher sensitivity and better sorption characteristics to NOX gas than the pure WO3 films material in air at operating temperature of $350^{\circ}C.$ The TiO2 doped WO3 semiconductor gas sensor shows nano-sized particle size and good sensitivity to sub-ppm concentration of NOX.

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Thick-film ammonia gas sensor with high sensitivity and excellent selectivity

  • Lee, Kyuchung;Ryu, Kwang-Ryul;Hur, Chang-Wu
    • Journal of information and communication convergence engineering
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    • v.2 no.1
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    • pp.22-25
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    • 2004
  • A highly sensitive ammonia gas sensor using thick-film technology has been fabricated and examined. The sensing material of the gas sensor is FeOx-$WO_{3}-SnO_{2}$ oxide semiconductor. The sensor exhibits resistance increase upon exposure to low concentration of ammonia gas. The resistance of the sensor is decreased, on the other hand, for exposure to reducing gases such as ethyl alcohol, methane, propane and carbon monoxide. A novel method for detecting ammonia gas quite selectively utilizing a sensor array consisting of an ammonia gas sensor and a compensation element has been proposed and developed. The compensation element is a Pt-doped $WO_{3}-SnO_{2}$gas sensor which shows opposite direction of resistance change in comparison with the ammonia gas sensor upon exposure to ammonia gas. Excellent selectivity has been achieved using the sensor array having two sensing elements.

Characteristics of CuO doped WO3-SnO2 Thick Film Gas Sensors (CuO가 첨가된 WO3-SnO2 후막 가스센서 특성 연구)

  • Lee, Don-Kyu;Shin, Deuck-Jin;Yu, Il
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.23 no.12
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    • pp.956-960
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    • 2010
  • CuO doped $WO_3-SnO_2$ thick film gas sensors were fabricated by screen printing method on alumina substrates and heat-treated at $350^{\circ}C$ in air. The effects of mixing ratio of $WO_3$ with $SnO_2$ on the structural and morphological properties of $WO_3-SnO_2$ were investigated X-ray diffraction and Scanning Electron Microscope. The structural properties of the $WO_3-SnO_2$:CuO thick film by XRD showed that the monoclinic of $WO_3$ and the tetragonal of $SnO_2$ phase were mixed. Nano CuO was coated on the $WO_3-SnO_2$ surface and then the surface of $WO_3$ was coated with $SnO_2$ particles with $1\sim1.5{\mu}m$ in diameters, as confirmed form the SEM image. The sensitivity of the $WO_3-SnO_2$:CuO sensor to 2000 ppm $CO_2$ gas and 50 ppm $H_2S$ gas for the various ratio of $WO_3$ and $SnO_2$ was investigated. The 4 wt% CuO doped $WO_3-SnO_2$(75:25) tkick films showed the highest sensitivity to $CO_2$ gas and $H_2S$ gas.

Fabrication and Characterization of Thick Film Ammonia Gas Sensor (후막형 암모니아 가스 센서의 제조 및 가스 감응 특성)

  • Yun, Dong-Hyun;Kwon, Chul-Han;Hong, Hyung-Ki;Kim, Seung-Ryeol;Lee, Kyu-Chung
    • Journal of Sensor Science and Technology
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    • v.6 no.6
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    • pp.445-450
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    • 1997
  • An ammonia gas sensor with high sensitivity using thick-film technology were fabricated and examined. The material for sensing the ammonia gas was the mixture of oxide semiconductor, $FeO_{x}-WO_{3}-SnO_{2}$. The sensor exhibits resistance increase upon exposure to low concentration of ammonia gas. The resistance of the sensor is decreased, on the other hand, for exposure to reducing gases such as ethyl alcohol, methane, propane and carbon monoxide. A novel method for detecting ammonia gas quite selectively utilizing a sensor array consisting of an ammonia gas sensor and a compensation element were proposed and developed. The compensation element is a Pt-doped $WO_{3}-SnO_{2}$ gas sensor which shows opposite direction of resistance change in comparison with that of the ammonia gas sensor upon exposure to ammonia gas. Excellent selectivity has been achieved using the sensor array having two sensing elements.

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Enhanced Acetone Detection in High-humidity Environments Using Cr-doped ε-WO3 Spheres

  • Ji-Yun Jeon;Da-Gyeong Shin;Young Kook Moon
    • Journal of Sensor Science and Technology
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    • v.33 no.5
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    • pp.255-258
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    • 2024
  • Exhaled breath analysis has emerged as a non-invasive and cost-effective approach in medical diagnostics, particularly for detecting biomarkers such as acetone. This study presents the synthesis and characterization of Cr-doped ε-WO3 spheres designed to improve gas-sensing performance. These spheres were synthesized via ultrasonic spray pyrolysis, resulting in a material with a complex composition exhibiting high sensitivity and selectivity towards acetone over ethanol (response ratio = 13.2 at 325℃). The enhanced acetone sensitivity of the Cr-doped WO3 sensor is attributed to the strong interaction between the spontaneous electric dipole moment of ε-WO3 and the significant dipole moment of acetone. This sensor can detect exhaled acetone, facilitating effective monitoring of a ketogenic diet.

NO2 Sensing Characteristics of Si MOSFET Gas Sensor Based on Thickness of WO3 Sensing Layer

  • Jeong, Yujeong;Hong, Seongbin;Jung, Gyuweon;Jang, Dongkyu;Shin, Wonjun;Park, Jinwoo;Han, Seung-Ik;Seo, Hyungtak;Lee, Jong-Ho
    • Journal of Sensor Science and Technology
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    • v.29 no.1
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    • pp.14-18
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    • 2020
  • This study investigates the nitrogen dioxide (NO2) sensing characteristics of an Si MOSFET gas sensor with a tungsten trioxide (WO3) sensing layer deposited using the sputtering method. The Si MOSFET gas sensor consists of a horizontal floating gate (FG) interdigitated with a control gate (CG). The WO3 sensing layer is deposited on the interdigitated CG-FG of a field effect transistor(FET)-type gas sensor platform. The sensing layer is deposited with different thicknesses of the film ranging from 100 nm to 1 ㎛ by changing the deposition times during the sputtering process. The sensing characteristics of the fabricated gas sensor are measured at different NO2 concentrations and operating temperatures. The response of the gas sensor increases as the NO2 concentration and operating temperature increase. However, the gas sensor has an optimal performance at 180℃ considering both response and recovery speed. The response of the gas sensor increases significantly from 24% to 138% as the thickness of the sensing layer increases from 100 nm to 1 ㎛. The sputtered WO3 film consists of a dense part and a porous part. As reported in previous work, the area of the porous part of the film increases as the thickness of the film increases. This increased porous part promotes the reaction of the sensing layer with the NO2 gas. Consequently, the response of the gas sensor increases as the thickness of the sputtered WO3 film increases.

The Sensing Characteristics of $WO_3$ Thin Films for $NO_x$ Gas Detection with the Change of Deposition Methods (증착방법에 따른 $NO_x$가스 감지용 $WO_3$박막센서의 특성 변화 연구)

  • 김태송;김용범;유광수;성기숙;정형진
    • Journal of the Korean Ceramic Society
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    • v.34 no.4
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    • pp.387-393
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    • 1997
  • In order to apply WO3 thin films to the semiconducting NOx gas sensors as a sensing material, which have been expected to show good electrical properties, such as large sensitivity, rapid responsibility, and high selectivity, the fabrication method and their sensing characteristics were studied. The variations of surface morphologies, crystallographic orientations and crystallinity with the WO3 thin film growing methods thermal evaporation and DC sputtering methods were investigated by using scanning electron microscopy (SEM) and X-ray diffraction(XRD) analysis. As a result of sensitivity (Rgas/Rair) measurements for the 5 ppm NO2 test gas, the sensitivity values were 113 for the sputtered films and 93 for the evaporated films. It was also observed that the recovery rate of a sensing signal after measuring sensitivity was faster in the sputtered films than in the evaporated films.

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