• Title/Summary/Keyword: Pt-$SnO_2$

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Fabrication and NOx sensing Characteristics of $WO_{3}$ doped with $SnO_{2}$ and Pt Thick Film Devices ($SnO_{2}$과 Pt를 첨가한 $WO_{3}$후막센서의 제조 및 NOx감응 특성)

  • Lee, D.S.;Han, S.D.;Park, K.B.;Sim, K.S.;Lee, D.D.;Son, Y.M.
    • Journal of Sensor Science and Technology
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    • v.5 no.5
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    • pp.47-54
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    • 1996
  • Highly sensitive $WO_{3}$ doped with $SnO_{2}$ and Pt thick-film sensors for NOx gas were fabricated. The sensors had a maximum sensitivity at operating temperature of $250^{\circ}C$, but the optimum operation temperature, considering recovery desorption time, was at $330^{\circ}C$. These sensors improved sensitivity, response and recovery time, selectivity and stability, as compared to $WO_{3}$ sensors. The good linearity of sensitivity as a function of the gas concentration exhibited the possibility to be used for concentration meter.

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Synthesis and Property of Carbon Nanotube-Supported Pd and Pt Nanoparticles (탄소나노 튜브위에 성장된 Pd 및 Pt 나노 입자의 제조 및 특성)

  • Kim, Hyung-Kun;Lee, Rhim-Youl
    • Korean Journal of Materials Research
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    • v.19 no.4
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    • pp.192-197
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    • 2009
  • Carbon nanotubes (CNT) were used as a catalyst support where catalytically active Pd and Pt metal particles decorated the outside of the external CNT walls. In this study, Pd and Pt nanoparticles supported on $HNO_3$-treated CNT were prepared by microwave-assisted heating of the polyol process using $PdCl_2$ and $H_2PtCl_6{\codt}6H_2O$ precursors, respectively, and were then characterized by SEM, TEM, and Raman. Raman spectroscopy showed that the acid treated CNT had a higher intensity ratio of $I_D/I_G$ compared to that of non-treated CNT, indicating the formation of defects or functional groups on CNT after chemical oxidation. Microwave irradiation for total two minutes resulted in the formation of Pd and Pt nanoparticles on the acid treated CNT. The sizes of Pd and Pt nanoparticles were found to be less than 10 nm and 3 nm, respectively. Furthermore, the $SnO_2$ films doped with CNT decorated by Pd and Pt nanoparticles were prepared, and then the $NO_2$ gas response of these sensor films was evaluated under $1{\sim}5\;ppm$ $NO_2$ concentration at $200^{\circ}C$. It was found that the sensing property of the $SnO_2$ film sensor on $NO_2$ gas was greatly improved by the addition of CNT-supported Pd and Pt nanoparticles.

Characterization of ZnO Nanorods and SnO2-CuO Thin Film for CO Gas Sensing

  • Lim, Jae-Hwan;Ryu, Jee-Youl;Moon, Hyung-Sin;Kim, Sung-Eun;Choi, Woo-Chang
    • Transactions on Electrical and Electronic Materials
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    • v.13 no.6
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    • pp.305-309
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    • 2012
  • In this study, ZnO nanorods and $SnO_2$-CuO heterogeneous oxide were grown on membrane-type gas sensor platforms and the sensing characteristics for carbon monoxide (CO) were studied. Diaphragm-type gas sensor platforms with built-in Pt micro-heaters were made using a conventional bulk micromachining method. ZnO nanorods were grown from ZnO seed layers using the hydrothermal method, and the average diameter and length of the nanorods were adjusted by changing the concentration of the precursor. Thereafter, $SnO_2$-CuO heterogeneous oxide thin films were grown from evaporated Sn and Cu thin films. The average diameters of the ZnO nanorods obtained by changing the concentration of the precursor were between 30 and 200 nm and the ZnO nanorods showed a sensitivity value of 21% at a working temperature of $350^{\circ}C$ and a carbon monoxide concentration of 100 ppm. The $SnO_2$-CuO heterogeneous oxide thin films showed a sensitivity value of 18% at a working temperature of $200^{\circ}C$ and a carbon monoxide concentration of 100 ppm.

Fabrication and Characterization of Portable Electronic Nose System for Identification of CO/HC Gases (CO/HC 가스 인식을 위한 소형 전자코 시스템의 제작 및 특성)

  • Hong, Hyung-Ki;Kwon, Chul-Han;Yun, Dong-Hyun;Kim, Seung-Ryeol;Lee, Kyu-Chung;Kim, In-Soo;Sung, Yung-Kwon
    • Journal of Sensor Science and Technology
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    • v.6 no.6
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    • pp.476-482
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    • 1997
  • A portable electronic nose system has been fabricated and characterized using an oxide semiconductor gas sensor array and pattern recognition techniques such as principal component analysis and back-propagation artificial neural network. The sensor array consists of six thick-film gas sensors whose sensing layers are Pd-doped $WO_{3}$, Pt-doped $SnO_{2}$, $TiO_{2}-Sb_{2}O_{5}-Pd$-doped $SnO_{2}$, $TiO_{2}-Sb_{2}O_{5}-Pd$-doped $SnO_{2}$ + Pd coated layer, $Al_{2}O_{3}$-doped ZnO and $PdCl_{2}$-doped $SnO_{2}$. The portable electronic nose system consists of an 16bit Intel 80c196kc as CPU, an EPROM for storing system main program, an EEPROM for containing optimized connection weights of artificial neural network, an LCD for displaying gas concentrations. As an application the system has been used to identify 26 carbon monoxide/hydrocarbon (CO/HC) car exhausting gases in the concentration range of CO 0%/HC 0 ppm to CO 7.6%/HC 400 ppm and the identification has been successfully demonstrated.

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A study on characteristics of thin film $SnO_2$ gas sensor (박막형 $SnO_2$가스 센서의 특성에 관한 연구)

  • 김상연;송준태
    • Electrical & Electronic Materials
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    • v.8 no.3
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    • pp.278-284
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    • 1995
  • Thin fihn SnO$_{2}$ Gas Sensor was fabricated by electron-beam evaporation system and the target made by general firing method for the purpose of detecting gas components in air, especially methane gas. SnO$_{2}$ thin film was prepared on the polished alumina substrate which Pt interdigital electrode was precoated. The effects of annealing temperature and substrate temperature on the structural properties of SnO$_{2}$ thin film on glass were investigated using the X-ray diffraction. The good crystalline structure is formed when substrate temperature is 150[.deg. C] and annealing condition is 550[.deg. C], 1[hour]. And the sensing properties at various thickness of the SnO$_{2}$ thin film and the effects of PdCI$_{2}$ addition were also investigated. The good result is showed when the thickness is below 1000[.angs.] and the quantity of PdCI$_{2}$ addition is 4[wt%]. The thickness of SnO$_{2}$ thin film was measured by .alpha.-step and Elliopsometer.

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Gas sensing properties of polyacrylonitrile/metal oxide nanofibrous mat prepared by electrospinning

  • Lee, Deuk-Yong;Cho, Jung-Eun;Kim, Ye-Na;Oh, Young-Jei
    • Journal of Sensor Science and Technology
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    • v.17 no.4
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    • pp.281-288
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    • 2008
  • Polyacrylonitrile(PAN)/metal oxide(MO) nanocomposite mats with a thickness of 0.12 mm were electrospun by adding 0 to 10 wt% of MO nanoparticles ($Fe_2O_3$, ZnO, $SnO_2$, $Sb_2O_3-SnO_2$) into PAN. Pt electrode was patterned on $Al_2O_3$ substrate by DC sputtering and then the PAN(/MO) mats on the Pt patterned $Al_2O_3$ were electrically wired to investigate the $CO_2$ gas sensing properties. As the MO content rose, the fiber diameter decreased due to the presence of lumps caused by the presence of MOs in the fiber. The PAN/2% ZnO mat revealed a faster response time of 93 s and a relatively short recovery of 54 s with a ${\Delta}R$ of 0.031 M${\Omega}$ at a $CO_2$ concentration of 200 ppm. The difference in sensitivity was not observed significantly for the PAN/MO fiber mats in the $CO_2$ concentration range of 100 to 500 ppm. It can be concluded that an appropriate amount of MO nanoparticles in the PAN backbone leads to improvement of the $CO_2$ gas sensing properties.

Pt Catalysts Prepared via Top-down Electrochemical Approach: Synthesis Methodology and Support Effects

  • Alexandra Kuriganova;Igor Leontyev;Nikolay Leontyev;Nina Smirnova
    • Journal of Electrochemical Science and Technology
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    • v.15 no.3
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    • pp.345-352
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    • 2024
  • The synthesis of Pt nanoparticles and catalytically active materials using the electrochemical top-down approach involves dispersing Pt electrodes in an electrolyte solution containing alkali metal cations and support material powder using an alternating pulsed current. Platinum is dispersed to form particles with a predominant crystallographic orientation of Pt(100) and a particle size of approximately 7.6±1.0 nm. The dispersed platinum particles have an insignificant content of PtOx phase (0.25±0.03 wt.%). The average formation rate was 9.7±0.5 mg cm-2 h-1. The nature of the support (carbon material, metal oxide, carbon-metal oxide hybrid) had almost no effect on the formation rate of the Pt nanoparticles as well as their crystallographic properties. Depending on the nature of the support material, Pt-containing catalytic materials obtained by the electrochemical top-down approach showed good functional performance in fuel cell technologies (Pt/C), catalytic oxidation of CO (Pt/Al2O3) and electrochemical oxidation of methanol (Pt/TiO2-C) and ethanol (Pt/SnO2-C).

Microfabrication of Thin Film Sensor with Metal Oxide Nanostructure and Their Gas Sensing Properties (금속 산화물 나노구조형 마이크로 박막 센서의 제작 및 가스 응답 특성)

  • Kang Bong-Hwi;Lee Sang-Rok;Song Kap-Duk;Joo Byung-Su;Lee Duk-Dong
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.43 no.8 s.350
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    • pp.13-18
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    • 2006
  • [ $SnO_2$ ] and ZnO nanostructures were grown on the surface of thin film by heat treatment of metal Sn, Zn under Ar gas flow and $O_2$ at atmospheric pressure, respectively. The sensitivity of the $SnO_2$ thin film device on which grown nanowires to CO gas(5,000 ppm) was 50 % at the operating temperature of $200^{\circ}C$. In case of using Pt as catalysts, the sensitivity was enhanced and operating temperature was reduced(73 % at $150^{\circ}C$ ). The sensitivity of the ZnO nanorods device using Cu as catalysts to NOx gas was 90 % at the operating temperature of $200^{\circ}C$. It was found that the sensitivity to CO and NOx gases for the device on which grown nanostructures was much higher than those for general thin film device.

Efficiency Improvement of Metal-Mesh Electrode Type Photoelectrochemical Cells by Oxides Layer Coatings (산화물박막 증착에 의한 금속 메쉬전극 구조 광전기화학셀의 효율 개선에 관한 연구)

  • Han, Chi-Hwan;Park, Seon-Hee;Sung, Youl-Moon
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.60 no.3
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    • pp.584-587
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    • 2011
  • In this work, the $TiO_2$ and $SnO_2$ thin films as blocking layers were coated directly onto the metal-mesh electrode surface to prevent unnecessary inflow of back-transfer electrons from the electrolyte ($I^-/I_3^-$) to the metal-mesh electrode. The DSCs were fabricated with working electrode of SUS mesh coated with blocking $TiO_2$ and $SnO_2$ layers, dye-attached mesoporous $TiO_2$ film, gel electrolyte and counter electrode of Pt-deposited F:$SnO_2$. From the experimental result, it was ascertained that the efficiency of metal electrode coated with $TiO_2$ by Dip-coating was superior to that of metal electrode coated with $SnO_2$ by Dip-coating and screen printing with the results of experiments. The photo-current conversion efficiency of the cell obtained from optimum fabrication condition was 3% ($V_{oc}$=0.61V, $J_{sc}$=11.64 mA/$cm^2$, ff=0.64) under AM1.5, 100 mW/$cm^2$ illumination.

High Sensitivity and Selectivity of Array Gas Sensor through Glancing Angle Deposition Method

  • Kim, Gwang Su;Song, Young Geun;Kang, Chong yun
    • Journal of Sensor Science and Technology
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    • v.29 no.6
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    • pp.407-411
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    • 2020
  • In this study, we propose an array-type gas sensor with high selectivity and response using multiple oxide semiconductors. The sensor array was composed of SnO2 and In2O3, and the detection characteristics were improved by using Pt, Au, and Pd catalysts. All samples were deposited directly on the Pt interdigitated electrode (IDE) through the e-beam evaporator glancing angle deposition (GAD) method. They grew in the form of well-aligned nanorods at off-axis angles. The prepared SnO2 and In2O3 nanorod samples were exposed to CH3COCH3, C7H8, and NO2 gases in a 300℃ dry condition. Au-decorated SnO2, Au-decorated In2O3, and Pd-decorated In2O3 exhibited high selectivity for CH3COCH3, C7H8, and NO2, respectively. They demonstrated a high detection limit of the sub ppb level computationally. In addition, measurements from each sensor were executed in the 40% relative humidity condition. Although there was a slight reduction in detection response, high selectivity and distinguishable detection characteristics were confirmed.