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      Sensing Properties of Au Nanoparticle-Functionalized ZnO Nanowires by γ-Ray Radiolysis

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      https://www.riss.kr/link?id=A103745378

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

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      γ-ray radiolysis was used to functionalize networked ZnO nanowires with Au nanoparticles. The networked ZnO nanowires were prepared through a vapor phase selective growth method. The sensing performances of the Au-functionalized ZnO nanowires were investigated in terms of NO2, CO and benzene gases. The Au-funtionalized ZnO nanowire sensors showed an applicable, reliable capability to detect the gases, indicating their potential in chemical gas sensors.
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      γ-ray radiolysis was used to functionalize networked ZnO nanowires with Au nanoparticles. The networked ZnO nanowires were prepared through a vapor phase selective growth method. The sensing performances of the Au-functionalized ZnO nanowires were in...

      γ-ray radiolysis was used to functionalize networked ZnO nanowires with Au nanoparticles. The networked ZnO nanowires were prepared through a vapor phase selective growth method. The sensing performances of the Au-functionalized ZnO nanowires were investigated in terms of NO2, CO and benzene gases. The Au-funtionalized ZnO nanowire sensors showed an applicable, reliable capability to detect the gases, indicating their potential in chemical gas sensors.

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      참고문헌 (Reference)

      1 김상섭, "Tailoring the Number of Junctions per Electrode Pair in Networked ZnO Nanowire Sensors" AMER CERAMIC SOC 94 (94): 3922-3926, 201110

      2 I. S. Hwang, "Synthesis and gas sensing characteristics of highly crystalline ZnO-SnO2 coreshell nanowires" 148 : 595-600, 2010

      3 Y. Mizukoshi, "Sonochemical preparation of composite nanoparticles of Au/γ-Fe2O3 and magnetic separation of glutathione" 12 : 191-195, 2005

      4 J. -A Park, "SnO2-ZnO hybrid nanofibers-based highly sensitive nitrogen dioxides sensor" 145 : 592-595, 2010

      5 김상섭, "Significant enhancement of the NO2 sensing capability in networked SnO2 nanowires by Au nanoparticles synthesized via gamma-ray radiolysis" ELSEVIER SCIENCE BV 193 : 243-248, 201109

      6 A. V. Tadeev, "Sensor properties of Pt doped SnO2 thin films for detecting CO" 337 : 163-165, 1999

      7 C. -J. Chang, "Selective growth of ZnO nanorods for gas sensors using ink-jet printing and hydrothermal processes" 519 : 1693-1698, 2010

      8 E. Gachard, "Radiation-induced, and chemical formation of gold clusters" 22 : 1257-1265, 1998

      9 J. K. Lung, "Preparation of gold nanoparticles by arc discharge in water" 434 : 655-658, 2007

      10 Y. Shen, "Microstructure and H2 gas sensing properties of undoped and Pd-doped SnO2 nanowires" 135 : 524-529, 2009

      1 김상섭, "Tailoring the Number of Junctions per Electrode Pair in Networked ZnO Nanowire Sensors" AMER CERAMIC SOC 94 (94): 3922-3926, 201110

      2 I. S. Hwang, "Synthesis and gas sensing characteristics of highly crystalline ZnO-SnO2 coreshell nanowires" 148 : 595-600, 2010

      3 Y. Mizukoshi, "Sonochemical preparation of composite nanoparticles of Au/γ-Fe2O3 and magnetic separation of glutathione" 12 : 191-195, 2005

      4 J. -A Park, "SnO2-ZnO hybrid nanofibers-based highly sensitive nitrogen dioxides sensor" 145 : 592-595, 2010

      5 김상섭, "Significant enhancement of the NO2 sensing capability in networked SnO2 nanowires by Au nanoparticles synthesized via gamma-ray radiolysis" ELSEVIER SCIENCE BV 193 : 243-248, 201109

      6 A. V. Tadeev, "Sensor properties of Pt doped SnO2 thin films for detecting CO" 337 : 163-165, 1999

      7 C. -J. Chang, "Selective growth of ZnO nanorods for gas sensors using ink-jet printing and hydrothermal processes" 519 : 1693-1698, 2010

      8 E. Gachard, "Radiation-induced, and chemical formation of gold clusters" 22 : 1257-1265, 1998

      9 J. K. Lung, "Preparation of gold nanoparticles by arc discharge in water" 434 : 655-658, 2007

      10 Y. Shen, "Microstructure and H2 gas sensing properties of undoped and Pd-doped SnO2 nanowires" 135 : 524-529, 2009

      11 C. Wang, "Metal oxide gas sensors : Sensitivity and influencing factors" 10 : 2088-2106, 2010

      12 S. K. Hazra, "Hydrogen sensitivity of ZnO p-n homojunctions" 117 : 177-182, 2006

      13 J. S. Wright, "Hydrogen sensing with Pt-functionalized GaN nanowires" 140 : 196-199, 2009

      14 김상섭, "Formation of networked ZnO nanowires by vapor phase growth and their sensing properties with respect to CO" ELSEVIER SCIENCE BV 65 (65): 2755-2757, 201106

      15 N. Kumar, "Fabrication of optically enhanced ZnO nanorods and microrods using novel biocatalysts" 5 : 1915-1918, 2005

      16 J. Y. Park, "Fabrication of a highly sensitive chemical sensor based on ZnO nanorod Arrays" 5 : 353-359, 2010

      17 N. Hongsith, "Ethanol sensor based on ZnO and Au-doped ZnO nanowires" 34 : 823-826, 2008

      18 J. Zhang, "Au nanoparticle-decorated porous SnO2 hollow spheres : a new model for a chemical sensor" 20 : 6453-6459, 2010

      19 Z. H. Chen, "Applications of silicon nanowires functionalized with palladium nanoparticles in hydrogen sensors" 18 : 345502-, 2007

      20 S. Kundu, "Anisotropic growth of gold clusters to gold nanocubes under UV irradiation" 18 : 075712-, 2007

      21 J. Y. Park, "An approach to fabricating chemical sensors based on ZnO nanorod arrays" 19 : 105503-, 2008

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      연월일 이력구분 이력상세 등재구분
      2022 평가예정 계속평가 신청대상 (계속평가)
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      2017-12-01 평가 등재후보로 하락 (계속평가) KCI등재후보
      2013-01-01 평가 등재 1차 FAIL (등재유지) KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2005-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2004-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2002-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.22 0.22 0.16
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.15 0.13 0.319 0.07
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