• Title/Summary/Keyword: 순환전위 분광법

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바이오센서 응용을 위한 그래핀 전극 표면의 결함준위에 따른 전기화학적 특성 분석

  • Park, Min-Jeong;Hwang, Suk-Hyeon;Im, Gi-Hong;Choe, Hyeon-Gwang;Jeon, Min-Hyeon
    • Proceedings of the Korean Vacuum Society Conference
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    • 2014.02a
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    • pp.386.2-386.2
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    • 2014
  • 본 연구에서는 바이오 센서 응용을 위해 그래핀을 전극으로 제작하여 그래핀 표면 결함준위에 따른 센서의 민감도를 전기화학 실험을 통해 관찰하였다. 그래핀은 니켈/구리촉매를 이용한 저 진공 화학 기상 증착 장비(Low-Pressure Chemical Vapor Deposition; LP-CVD)와 Photo-lithography로 제작한 것과 탄소 산화물을 환원시켜 만든 환원-그래핀, 두 가지를 사용하였다. 전기화학 실험에서 그래핀 전극 및 Silver/Silver chloride (Ag/AgCl), Fluorine doped Tin Oxide (FTO)은 작업 전극 및 기준 전극, 상대 전극으로 각각 사용하였고, 반응용액은 potassium hexacyanoferrate (III)를 농도를 다르게 하여 사용하였다. 그래핀의 표면 상태, 층수, 결함 정도 등 구조적인 특성은 원자력현미경(Atomic Force Microscopy; AFM), 주사 전자 현미경(Secondary Electron Microscopy; SEM)과 Raman spectroscopy를 각각 이용하여 확인하였고, 그래핀의 결함준위에 따른 반응면적 및 센서 감도 의존성을 전류모드-원자력현미경(Current-Atomic Force Microscopy; I-AFM)과 전기화학 임피던스 분광법(Electrochemical Impedance Spectroscopy; EIS)를 통해 그래핀 전극의 성능을 분석하고, 그래핀 결함 준위에 따른 센서 감도 의존성은 순환전위 분광법 (Cyclic Voltammetry; CV)를 이용하여 관찰하였다. 또한 농도가 다른 반응용액은 센서의 민감도를 관찰하는데 사용하였다. 결과적으로 LP-CVD로 성장한 그래핀과 환원-그래핀의 결함준위에 따른 센서의 성능을 비교 분석한 결과와 반응용액 농도에 따른 센서의 민감도 결과는 그래핀 바이오센서에 대한 응용 및 상용화를 앞당기는데 기여할 것으로 예상한다.

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$^{51}V$ NMR and Cyclic Voltammetry Studies on the Interaction of Vanadate and N-Benzyliminodiacetate in Aqueous Solution (Vanadate와 N-Benzyliminodiacetate 리간드의 상호작용에 대한 $^{51}V$ 핵자기공명분광법과 순환전압 - 전류법 연구)

  • Park, Chul-Jin;Park, Sam-Su;Lee, Man-Ho
    • Analytical Science and Technology
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    • v.12 no.3
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    • pp.184-189
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    • 1999
  • $^{51}V$ NMR and cyclic voltammetry studies on the interaction of vanadate and N-benzyliminodiacetate (Bz-IDA) in aqueous solution have been studied. From the NMR spectra two $^{51}V$ NMR peaks resulting at -515.5 and -500.1 ppm, due to the complexations between vanadate(V) and Bz-IDA at pH 5. has been observed. From the cyclic voltammograms the reduction-oxidation of the vanadate(V) complex has been found to be one-electron reaction.

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Electrochemical Behaviors of Copper-1-(2-pyridylazo)-2-naphthol Complex in Acetonitrile (아세토니트릴 용매 중에서 Copper-1-(2-pyridylazo)-2-naphthol 착물의 전기화학적 성질)

  • Zun-Ung Bae;Sang-O Oh;Hee-Bong Song;Tae-Myung Park
    • Journal of the Korean Chemical Society
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    • v.37 no.10
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    • pp.888-894
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    • 1993
  • The electrochemical behaviors of copper-1-(2-pyridylazo)-2-naphthol(Cu-PAN) complex in acetonitrile (AN) solution have been investigated by the use of cyclic voltammetry, DC-polarography, controlled potential coulometry and UV-Vis spectroscopy. Cu-PAN complex in acetonitrile exhibit three reduction waves at -1.27 V, -1.64 V and -2.08 V vs. Ag/AgNO$_3$(AN). The numbers of electron involved in each reduction step was calculated with controlled potential coulometry, and reduction product was identified with UV-Vis spectrum. As the result, we proposed the reduction mechanism of the Cu-PAN complex in acetonitrile.

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Spectroelectrochemical Study for Thin Film of Gold Nanoparticles (금 나노입자 박막의 분광전기화학적 연구)

  • Seo, Seong S.;Chambers, James Q.
    • Journal of the Korean Chemical Society
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    • v.50 no.1
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    • pp.32-36
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    • 2006
  • films of gold nanoparticles were formed on indium tin oxide (ITO) by an electrodeposition method from an aminosilicate stabilized gold colloid solution. The thin films were examined by cyclic voltammetry (CV), scanning electron microscopy (SEM), UV-visible, and energy dispersive X-ray spectroscopy (EDXS). The surface coverage of gold nanoparticles on the thin film was estimated to 1.2 nanomole/cm2. An anthraquinone-2, 6-disulfonic acid, disodium salt (AQDS) self-assembled layer was generated by immersing gold thin film into 1mM of AQDS in 0.1M HClO4 solution for over 20 hours. As a result, a new absorbance peak from the multi-layers (AQDS/thin film of gold /ITO) was obtained about at 690 nm. Also, the surface plasmon absorption of multi-layers was measured by UV-Visible spectrometer along with chronoamperometry by applying the various potentials from +0.5V to -0.5V. The maximum surface plasmon absorption band at 550 nm was decreased by applying negative potentials. The change of absorbance was correlated with the surface coverage of the AQDS indicating the pseudo-capacity surface state of the AQDS layer was coupled to the energy level of the plasmonband by applied negative potentials.

Electrochemical Properties of Nickel(II) Complexes with Multidentate N, O-Schiff Base Ligands (여러 자리 산소-질소계 시프염기 리간드 니켈(II)착물의 전기화학적 특성)

  • Kim, Sun-Deuk;Kim, Jun-Kwang;Roh, Soo-Gyun
    • Analytical Science and Technology
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    • v.10 no.4
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    • pp.246-255
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    • 1997
  • A series of Ni(II) complexes with multidentate N, O-Schiff base ligands: ie [bis-(salicylaldehyde) ethylenediamine(SED), bis-(salicylaldehyde) propylenediamine(SPD), bis-(salicylaldehyde) dietrylenetriamine(SDT), and bis-(salicylaldehyde) triethylenetetraamine(STT)] and Ni(II) complexes were synthesized. The Ni(II) complexes were characterized by elemental analysis, IR, UV-Vis and mass spectrometry. The stability constants of each nickel (II) complexes were determined by potentiometry in 70% dioxane-30% $H_2O$ and ethanol. The stability constants of Nickel(II) complexs increased in the order of Ni(II)-SPD

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Analysis of Tridentate Schiff Base Ni(II) Complex (세자리 Schiff Base의 Ni(II) 착물의 분석)

  • Chae, Hee-Nam;Choi, Yong-Kook
    • Analytical Science and Technology
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    • v.11 no.5
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    • pp.332-340
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    • 1998
  • Tridentate Schiff base ligands, $SIPH_2$, $SIPCH_2$, $HNIPH_2$, and $HNIPCH_2$ were prepared by the reactions of salicylaldehyde and 2-hydroxy-1-naphthaldehyde with 2-aminophenol and 2-amino-p-cresol. Ni(II) complexes of those ligands were synthesized. The structures and properties of ligands and their complexes were studied by elemental analysis, $^1H$-NMR, IR, UV-visible spectra, and thermogravimetric analysis. The mole ratio of Schiff base to the metal of complexes was found to be 1:1. Ni(II) complexes were contemplated to be hexa-coordinated octahedral configuration containing three water molecules. The redox process of ligands and complexes in DMSO solution containing 0.1 M TBAP as supporting electrolyte was investigated by cyclic voltammetry and differential pulse voltammetry with glassy carbon electrode. The redox process of the tridentate Schiff base ligands was totally irreversible. The redox process of Ni(II) complexes were quasi-reversible and diffusion-controlled as one electron by one step process Ni(II)/Ni(I). The reduction potentials of the Ni(II) complexes shifted in the positive direction in the order [$Ni(II)(HNIP)(H_2O)_3$]>[$Ni(II)(SIP)(H_2O)_3$]>[$Ni(II)(SIPC)(H_2O)_3$]>[$Ni(II)(HNIPC)(H_2O)_3$] and their dependence on ligands were not so high. Consequently the [$Ni(II)(HNIPC)(H_2O)_3$] complex among the synthesized Ni(II) complexes was found to be most stable in the DMSO solution.

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Synthesis of Tridentate-Schiff Base Co(II) Complexes and Their Electrochemical Properties (세자리 Schiff Base Co(Ⅱ) 착물의 합성과 전기화학적 성질)

  • Chae, Hui Nam;Choe, Yong Guk
    • Journal of the Korean Chemical Society
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    • v.42 no.4
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    • pp.422-431
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    • 1998
  • Tridentate Schiff base ligands such as $SIPH_2,\;SIPCH_2,\;HNIPH_2,\;and\; HNIPCH_2$ were prepared by the reaction of salicylaldehyde and 2-hydroxy-l-naphthaldehyde with 2-aminophenol and 2-amino-p-cresol. The structures and properties of ligands and their Co(II) complexes were investigated by elemental analysis, $^1H$NMR, IR, UV-visible spectra, and thermogravimetric analysis. The molar ratio of Schiff base to the metal of complexes was found to be 1:1. Co(II) complexes were contemplated to be hexa-coordinated octahedral configuration containing three water molecules. The redox process of ligands and complexes in DMSO solution containing 0.1 M TBAP as a supporting electrolyte were investigated by cyclic voltammetry with glassy carbon electrode. The redox process of the tridentate Schiff base ligands was totally irreversible. The redox process of Co(II) complexes were irreversible and one electron processes by two steps in diffusion controlled reaction. The reduction potential of the Co(II) complexes was shifted to the positive direction in the order [Co(Ⅱ)$(HNIPC)(H_2O)_3$]>[Co(Ⅱ)$(HNIP)(H_2O)_3$]>[Co(II)$(SIPC)(H_2O)_3$]>[Co(Ⅱ)$(SIP)(H_2O)_3], and their dependence on ligands were not so high.

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Synthesis of Transition Metal Cu(II) Complexes and Their Electrochemical Properties (Cu(II) 전이금속 착물의 합성과 전기화학적 성질에 관한 연구)

  • Chae, Hee-nam;Choi, Yong-kook
    • Applied Chemistry for Engineering
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    • v.9 no.5
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    • pp.719-725
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    • 1998
  • Tridentate Schiff base ligands were prepared by the reactions of salicylaldehyde and 2-hydroxy-1-naphthaldehyde with 2-aminophenol and 2-amino-p-cresol. And then Cu(II) complexes of those ligands were synthesized. The structures and properties of ligands and their complexes were studied by elemental analysis, $^1H$-NMR, IR, UV-visible spectra, and thermogravimetric analysis. The mole ratio of Schiff base to the metal of complexes was found to be 1:1. Cu(II) complexes were contemplated to be four-coordinated square planar configuration containing one water molecule. The redox process of ligands and complexes in DMSO solution containing 0.1 M TBAP as a supporting electrolyte was investigated by cyclic voltammetry and differential pulse voltammetry with glassy carbon electrode. The redox process of the tridentate Schiff base ligands was totally irreversible. The redox process of Cu(II) complexes was quasi-reversible and diffusion-controlled as one electron by one step process Cu(II)/Cu(I). The reduction potentials of the Cu(II) complexes shifted in the positive direction in the order of [Cu(II)(HNIPC)($H_2O$)]>[Cu(II)(HNIP)($H_2O$)]>[Cu(II)(SIP)($H_2O$)]>[Cu(II)(SIPC)($H_2O$)].

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Synthesis and Characterization of a Di-$\mu$-oxo-bridged Molybdeum(V) Complexes (두 개 산소가교형 몰리브덴(V) 착물의 합성과 그 성질에 관한 연구)

  • Doh, Gil Myung;Kim, Ill Chool;Choi, Bo Yong
    • Journal of the Korean Chemical Society
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    • v.39 no.3
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    • pp.198-203
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    • 1995
  • The Mo(V) $di-\mu-oxo$ type $(Mo_2O_4(H_2O)_2L)$ complexes $(L:\;C_3H_7CH(SCH_2COOH)_2,\;C_6H_5CH(SCH_2COOH)_2,\;CH_3OC_6H_4CH(SCH_2COOH)_2,\;C_5H_{10}C(SCH_2COOH)_2,\;C_3H_7C(CH_3)(SCH_2COOH)_2,\;C_3H_7CH(SCH_2CH_2COOH)_2,\;C_6H_5CH(SCH_2CH_2COOH)_2)$ have been prepared by the reaction of $[Mo_2O_4(H_2O)_6]^{2+}$ with a series of dithiodicarboxy ligands. These complexes are completed by two terminal oxygens arranged trans to one another and each ligand forms a chelate type between two molybdenum. In $Mo_2O_4(H_2O)_2L$, two $H_2O$ coordinated at trans site of terminal oxygens. The prepared complexes have been characterized by elemental analysis, infrared spectra, electronic spectra, and nuclear magnetic resonance spectra. In the potential range -0.00 V to -1.00 V at a scan rate of 20 $mVs^{-1}$, a cathodic peak at -0.50∼-0.58 V (vs. SCE) and an anodic peak at -0.40∼-0.43 V (vs. SCE) have been observed in aquous solution. The ratio of the cathodic to anodic current ($I_{pc}/I_{pa}$) is almost 1, we infer that redox is reversible reaction.

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A Study on the Detection Characteristics in Glucose and Fabrication of Bi-Enzyme Electrode using Electrochemical Method (전기화학적 방법을 이용한 다중 효소 전극 제작 및 글루코스 검출 특성에 관한 연구)

  • Han, Kyoung Ho;Shin, In Seong;Yoon, Do-Young
    • Journal of the Korean Electrochemical Society
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    • v.23 no.3
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    • pp.66-72
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    • 2020
  • In this study, the development of biosensors capable of bi-enzyme reactions by including Horseradish peroxidase and glucose oxidase was carried out for detection of glucose. The sensors were manufactured using electro deposition method to reduce production time, and screen printed electrodes (SPE) were used to produce economical sensors. To check the bienzyme effect, the sensor was compared and analyzed with single enzyme biosensor. The characteristics of the sensor were evaluated using scanning electron microscopy(SEM), cyclic voltammetry(CV), electrochemical impedance spectroscopy(EIS), chronoamperometry(CA), and flow injection analysis(FIA). Analysis results from SEM, CV and EIS confirmed that the enzymes are well fixed to the electrode surface. In addition, it was confirmed that bi-enzyme biosensors manufactured from the CA method improved signal performance by 200% compared to single enzyme biosensors. From this results, we were able to explain that HRP and GOD react catalyzed to each other. And the results of FIA showed that the intensity of each current signal was constant when the same concentration of glucose was injected four times. In addition, by analyzing the intensity of current signals for glucose concentrations, the biosensors manufactured in this study showed excellent trends in signal sensitivity, reproducibility and stability.