• 제목/요약/키워드: Pt-MWNT electrode

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고효율 염료감응형 태양전지를 위한 탄소나노튜브 기반 나노 하이브리드 상대전극 (Carbon Nanotube-based Nanohybrid Materials as Counter Electrode for Highly Efficient Dye-sensitized Solar Cells)

  • 김지수;심은주;다오 반 두옹;최호석
    • Korean Chemical Engineering Research
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    • 제54권2호
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    • pp.262-267
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    • 2016
  • 본 연구에서는 건식플라즈마 환원방법을 이용하여 다중벽 탄소나노튜브(MWNT) 코팅 층 위에 백금, 금, 백금/금 이종 나노입자를 쉽고 균일하게 고정화 시킬 수 있는 방법을 제시한다. 나노입자는 다중벽 탄소나노튜브 위에 안정적이고 균일하게 고정화되어 나노하이브리드 소재가 되며, 이렇게 합성된 나노하이브리드 소재는 염료감응형 태양전지의 상대전극에 적용된다. CV, EIS, Tafel 측정을 통해 준비된 상대전극의 전기화학적 특성을 분석한 결과, PtAu alloy/MWNT 상대전극이 가장 높은 전기화학적 촉매 활성과 전기 전도도를 보여준다. PtAu alloy/MWNT 상대전극을 이용한 염료감응형 태양전지는 7.9%의 에너지 변환 효율을 보임으로써 MWNT (2.6%), AuNP/MWNT (2.7%) 그리고 PtNP/MWNT (7.5%) 상대전극을 사용한 염료감응형 태양전지의 효율과 비교하였을 때, 가장 높은 효율을 보여주고 있다.

Fabrication of Pt-MWNT/Nafion Electrodes by Low-Temperature Decal Transfer Technique for Amperometric Hydrogen Detection

  • Rashid, Muhammad;Jun, Tae-Sun;Kim, Yong Shin
    • 전기화학회지
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    • 제17권1호
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    • pp.18-25
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    • 2014
  • A Pt nanoparticle-decorated multiwall carbon nanotube (Pt-MWNT) electrode was prepared on Nafion by a hot-pressing at relatively low temperature. This electrode exhibited an intricate entangled, nanoporous structure as a result of gathering highly anisotropic Pt-MWNTs. Individual Pt nanoparticles were confirmed to have a polycrystalline face-centered cubic structure with an average crystal size of around 3.5 nm. From the cyclic voltammograms for hydrogen redox reactions, the Pt-MWNT electrode was found to have a similar electrochemical behavior to polycrystalline Pt, and a specific electrochemical surface area of $2170cm^2mg^{-1}$. Upon exposure to hydrogen analyte, the Pt-MWNT/Nafion electrode demon-strated a very high sensitivity of $3.60{\mu}A\;ppm^{-1}$ and an excellent linear response over the concentration range of 100-1000 ppm. Moreover, this electrode was also evaluated in terms of response and recovery times, reproducibility, and long-term stability. Obtained results revealed good sensing performance in hydrogen detection.

Electrochemical gas sensor based on Pt-Ru-Mo/MWNT electrocatalysts and vinyl ionic liquids as electrolyte

  • Ju, Dong-Woo;Choi, Seong-Ho
    • 분석과학
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    • 제28권1호
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    • pp.8-16
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    • 2015
  • We prepared a novel electrochemical gas sensor (EG sensor) based on interdigitated electrode (IDE) coated with vinyl ionic liquids (ILs) as electrolyte and Pt-Ru-Mo/MWNT electrocatalysts for occurring redox-active of CNCl gas. The vinyl ILs such as 1-butyl-3-(vinylbenzyl)imidazolium chloride, $[BVBI]^+Cl^-$, and 3-hexyl-1-vinylimidazolium bromide, $[HVI]^+Br^-$, were synthesized by $SN_2$ reaction in order to use electrolyte. The Pt-Ru-Mo/MWNT electrocatalysts were also prepared by one-step radiation-induced reduction of metal ions in the presence of MWNTs as supports. The fabricated EG sensor with vinyl ILs electrolyte was evaluated through optical microscopy (OM), scanning electron microscopy (SEM), and atomic force microscopy (AFM). The prepared EG sensor is clearly detected over 2.0 ppm CNCl gas and is exhibited a liner relationship between current and concentration over a region of 10-100 ppm.

다중벽 탄소 나노튜브를 이용한 유동 압력 검출 (Pressure sensing of air flow using multi-walled carbon nanotubes)

  • 송진원;이종홍;이응숙;한창수
    • 센서학회지
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    • 제16권5호
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    • pp.377-383
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    • 2007
  • We describe the fabrication and characterization of a doubly clamped multi-walled carbon nanotube (MWNT). The device was assembled by an application of electric field in solution. The MWNT was clamped on end of metal trench electrodes in solution and deposited with additional platinum (Pt) on edge of electrode for firmly suspending the MWNT by focused ion beam (FIB). The MWNTs range of diameter and length were 100 to 150 nm and 1.5 to $2{\mu}m$, respectively. Electrical characteristics of fabricated devices were measured by I-V curve and impedance analysis. The mechanical deformation was observed by resistivity in high air pressure. Resonant frequency around 6.8 MHz was detected and resistivity was linearly varied according to the magnitude of air pressure. This device could have potential applications in nanoelectronics and various sensors.