• Title/Summary/Keyword: Electroreduction

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Electrocatalysis of Oxygen Reduction by Cu-containing Polymer Films on Glassy Carbon Electrodes

  • Kim, Jong-Won;Gewirth, Andrew A.
    • Bulletin of the Korean Chemical Society
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    • v.28 no.8
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    • pp.1322-1328
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    • 2007
  • The catalytic activity of poly[(2,2'-bipyridine)copper(II)-μ4-oxalato] coated on a glassy carbon electrode (GCE) for O2 electroreduction is examined using cyclic voltammetry and rotating disk electrode techniques. The cyclic voltammograms show that O2 is electroreduced on pBpCuOx-coated GCE surfaces at a peak potential of ? 0.25 V in pH 4.7 acetate buffer media. The electroreduction of O2 on pBpCuOx-coated GCE occurs at 450 mV more positive potential than that found at a bare GCE. The catalytic activity originates from Cu(II) coordinated by bipyridine in the complexes and the polymer type Cu-complex films exhibit an enhanced stability compared to monomeric Cu-complexes during the O2 electroreduction. The rotating disk electrode measurements reveal that the electroreduction of O2 on pBpCuOx-coated GCE is a four-electron process. Kinetic parameters for O2 reduction on pBpCuOx-coated GCE are obtained from rotating disk experiments and compared with those on bare glassy carbon electrode surfaces.

Electrochemical Studies on Ion Recognition of Alkali Metal Cations by 18-crown-6 in Methanol

  • Chi-Woo Lee;Chang-Hyeong Lee;Doo-Soon Shin;Si-Joong Kim
    • Bulletin of the Korean Chemical Society
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    • v.12 no.5
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    • pp.487-490
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    • 1991
  • Electrochemical studies of alkali metal cations $(Na^+, K^+, Rb^+, Cs^+)$ were performed in methanolic solutions of 18-crown-6 and tetrabutylammonium salts at dropping mercury electrodes (DME) and thin mercury film electrodes (TMFE). All the cations investigated were reduced reversibly at DME in the absence and presence of 18-crown-6, and in the latter the limiting currents were decreased and the reduction potentials shifted to the negative direction. The reduction potentials of the metal ions (0.2 mM) in the presence of the crown (10 mM) were - 2.14 $(Na^+)$, - 2.26 $(K^+)$, - 2.20 $(Rb^+) and - 2.14 $(Cs^+)$ V vs. SCE, respectively. The measured potentials were rationalized with ion recognition of the cations by the crown. Electroreduction at TMFE were highly irreversible. A new representation method of ion recognition is presented. In aqueous solutions, electroreduction of the alkali metal ions were characterized by adsorption.

Enhanced CO2 electrocatalytic conversion via surface treatment employing low temperature plasma (플라즈마 표면처리를 통한 CO2 전기화학적 전환 촉매성능 개선)

  • Choi, Yong-Wook
    • Journal of the Korean institute of surface engineering
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    • v.55 no.5
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    • pp.261-272
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    • 2022
  • CO2 electroreduction is considered as a means to overcome climate change by converting CO2 into value-added chemicals and liquid fuels. Although numerous researchers have screened versatile metal for the use of electrodes, and looked into the reaction mechanism, it is still required to develop highly enhanced electrocatalyst for CO2 reduction to reach beyond lab-scale. Plasma treatment applying onto the surface of meal electrodes could improve activity, selectivity and stability of the electrocatalysts. This review highlights the effect of plasma pretreatment, and provides insight to design suitable CO2 electrocatalyst.

The reaction rate of polysilanes prepared by electroreduction with different monomers and additives (여러 가지 모노머와 첨가제를 가지고 전기환원법에 의해 제조된 폴리실란의 반응속도)

  • Zhang, Feng-Jun;Chen, Ming-Liang;Oh, Won-Chun
    • Analytical Science and Technology
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    • v.21 no.5
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    • pp.432-437
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    • 2008
  • In this study, polysilanes were synthesized by electroreduction with different monomers such as $CH_3HSiCl_2$, $PhSiCl_3$, $CH_3SiCl_3$ and $(CH_3)_2SiCl_2$ by Mg electrodes under ultrasonic radiation. The effects of monomers and additives (p-dibromobenzene (DBB), naphthalene (NAPH) and anthracene (ANTH)) on the reaction rate were investigated. Polymerization of $PhSiCl_3$ among the four monomers showed the highest rate. p-dibromobenzene (DBB) was proved the most effective additive. Based on the observations, some possible reaction mechanisms of the polymerization were proposed.

STATUS OF PYROPROCESSING TECHNOLOGY DEVELOPMENT IN KOREA

  • Song, Kee-Chan;Lee, Han-Soo;Hur, Jin-Mok;Kim, Jeong-Guk;Ahn, Do-Hee;Cho, Yung-Zun
    • Nuclear Engineering and Technology
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    • v.42 no.2
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    • pp.131-144
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    • 2010
  • The Korea Atomic Energy Research Institute (KAERI) has been developing pyroprocessing technology for recycling useful resources from spent fuel since 1997. The process includes pretreatment, electroreduction, electrorefining, electrowinning, and a waste salt treatment system. This paper briefly addresses unit processes and related innovative technologies. As for the electroreduction step, a stainless steel mesh basket was applied for adaption of granules of uranium oxide. This basket was designed for ready handling and transfer of feed material. A graphite cathode was used for the continuous collection of uranium dendrite in the electrorefining system. This enhances the throughput of the electrorefiner. A particular mesh type stirrer was designed to inhibit uranium spill-over at the liquid Cd crucible. A residual actinide recovery system was also tested to recover TRU tracer. In order to reduce the waste volume, a crystallization method is employed for Cs and Sr removal. Experiments on the unit processes were tested successfully, and based on the results, engineering-scale equipment has been designed for the PRIDE (PyRoprocess Integrated inactive DEmonstration facility).

Investigation of the Effect of Acidity and Polyethylene Glycol on Electrochemical Deposition of Trivalent Chromium Ions

  • Phuong, N.V.;Kwon, S.C.;Lee, J.Y.;Kim, M.;Lee, Y.I.
    • Proceedings of the Korean Institute of Surface Engineering Conference
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    • 2011.05a
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    • pp.47-48
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    • 2011
  • The effect of solution acidity and organic additives, polyethylene glycol (PEG), on the trivalent chromium electroplating was systematically investigated in the view point of solution stability, electroreduction of trivalent chromium ions and characterization of deposition layer. It was found that, the concentration of fraction chromium complexes in the trivalent chromium bath containing formic acid is strongly depended on pH value. PEG molecules were stable in trivalent chromium bath containing formic acid via studies on electrospray ionization mass spectrometry (ESI-MS) and UV-Vis. However, the presence of PEG molecules decreased the reductive current of hydrogen evolution, increasing of current efficiency higher about 10 % compared with solutions without PEG. Moreover, PEG additives developed the nodular morphology during electroreduction of trivalent chromium ions with the increase of solution acidity and enhanced its current efficiency by maintaining the consumption of complexant, formic acid, at a low speed. In this study, the effect of solution acidity was emphasized important, there, it controlled the formation of complexes in the solution, cathodic film (CF) during deposition, and properties of deposited layer. By electrochemical quartz crystal microbalance (EQCM), studies show that chromium electrodeposition occurs via the formation of intermediate complexes and adsorption on the cathode surface, which hinder the penetration of ions from bulk solution to the cathode surface.

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Structure Dependent Electrocatalysis for Electroreduction of Oxygen at Nanoporous Gold Surfaces (나노다공성 금 표면상에서 구조 변화에 따른 전기화학적 산소환원 촉매활성)

  • Choi, Su-Hee;Choi, Kyoung-Min;Kim, Jong-Won
    • Journal of the Korean Electrochemical Society
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    • v.15 no.2
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    • pp.83-89
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    • 2012
  • We investigate the electrocatalytic activities for oxygen reduction at nanoporous gold (NPG) surfaces fabricated by selective dissolution of Ag from electrodeposited Ag-Au layers on electrode surfaces. The structure of NPG was controlled by changing the concentration ratios of precursor metal complexes during the electrodeposition of Ag-Au layers and the corresponding surface morphology and surface area was examined. NPG structures with Ag/Au ratio of 2.0 exhibited the highest electrocatalytic activity for oxygen reduction, where the nanoporous structure plays a key role, but the surface area does not affect on the electrocatalytic activity. The mechanism of electroreduction of oxygen was investigated by rotating disk electrode techniques. In acidic media, oxygen was first reduced to hydrogen peroxide followed by further reduction to water through 2-step 4-electron mechanism, whereas the oxygen was reduced directly to water by 4-electron mechanism in basic media.

Investigation of the Effect of Solution Acidity and Organic Additives on the Electrodeposition of Trivalent Chromium Ions (3가크롬 이온의 전착 반응에 용액 산도 및 유기물 첨가제가 미치는 영향 연구)

  • Lee, Joo-Yul;Van Phuong, Nguyen;Kang, Dae-Keun;Kim, Man;Kwon, Sik-Chol
    • Journal of the Korean institute of surface engineering
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    • v.43 no.6
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    • pp.297-303
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    • 2010
  • The effect of solution acidity and organic additives, polyethylene glycol (PEG), on the trivalent chromium electroplating was systematically investigated in the view point of electroreduction of trivalent chromium ions and solution stability. It was found that solution acidity controlled at pH 2.5 showed the widest current range for bright electrodeposits in the presence of PEG additives, which reduced the local current intensification at high current densities. Through complex interaction between PEG additives and hydrogen ion, that is, solution acidity, electrode potential was moved in the negative direction in the bulk solution, while it shifted in the positive when electric potential was scanned. In conjunction with electrochemical quartz crystal microbalance (EQCM), it was found that PEG additives had a role in promoting the electron transfer to trivalent chromium ion complexes in bulk solution and their adsorption at the electrode surface as well as interfering with hydrogen ion reduction process below pH 2.5. The PEG additives developed the nodular morphology during electroreduction of trivalent chromium ions with the increase of solution acidity and enhanced its current efficiency by maintaining the consumption of complexant, formic acid, at low speed.

Removal of Nitrate in Groundwater by Bipolar ZVI Packed Bed Electrolytic Cell at Field Pilot (지하수중의 질산성질소 제거를 위한 영가철 충진 복극전해조의 현장적용에 관한 연구)

  • Na, So-Jeong;Jeong, Joo-Young;Kim, Han-Ki;Park, Joo-Yang
    • Journal of Korean Society of Water and Wastewater
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    • v.25 no.6
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    • pp.989-994
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    • 2011
  • Nitrate contamination of groundwater is a common problem throughout intensive agriculture areas (non-point source pollution). Current processes (e.g. ion exchange and membrane separation) for nitrate removal have various disadvantages. The objective of this study was to evaluate electrochemical method such as electroreduction using bipolar ZVI packed bed electrolytic cell to remove nitrate from groundwater at field pilot. In addition ammonia stripping tower continuously removed up to 77.0% of ammonia. Bipolar ZVI packed bed electrolytic cell also removed E.coli. In the field pilot experiment for groundwater in 'I' city (average nitrate 30~35 mg N/L, pH 6.4), maximum 99.9% removal of nitrate was achieved in the applied 600 V.