• 대한화학회지
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• 제31권6호
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• pp.542-554
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• 1987

네자리 schiff base cobalt(II) 착물로서 Co(SED), Co(SND) and Co(SOPD)들을 합성하여 이들 착물들의 DMSO 용액에서 산소를 가하여 산소첨가 생성착물로 $[Co(SED)(DMSO)]_2O_2,\;[Co(SND)(DMSO)]_2O_2$ 및 $[Co(SOPD)(DMSO)]_2O_2$들을 합성하였다. 이들의 원소분석과 Cobalt정량, IR-Spectra, T.G.A. 및 자화율을 측정하여 산소:cobalt(II) 착물의 결합비가 1:2이고 네자리 schiff base cobalt(II)와 DMSO 및 산소가 6배위 결합으로 주어짐을 알았으며 Co(SED), Co(SND) 및 Co(SOPD) 착물들의 0.1M TEAP-DMSO용액에서 순환전압-전류법에 의한 산화 환원 과정이 Co(SED) 및 Co(SOPD)는 Co(II) / Co(III)와 Co(II) / Co(I) 과정이 가역적으로 일어나고 Co(SND)는 Co(II) / Co(III)과정은 가역적이지만 Co(II) / Co(I) 과정은 비가역적이다. 또한 산소 첨가 생성물의 착물들은 0.1M TEAP-DMSO 용액에서 산소결합의 환원과정이 $E_{pc}$ = -0.80~-0.89V에서 일어나고 이에 Couple인 산화과정은 $E_{pa}$ = -0.70~-0.76V에서 준가역적으로 일어남을 알았다.

• Journal of Magnetics
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• 제22권2호
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• pp.175-180
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• 2017

CoNi alloy films prepared from electrolytes with various concentrations of cobalt ions were studied in the paper. Influences of different cobalt ions concentrations on electrochemistry processes, components, microstructures, surface morphologies and magnetic properties of CoNi films were investigated. It was found that CoNi film plating was a kind of anomalous codeposition process. The percentage of cobalt content in CoNi films was higher than that of in the electrolyte. Moreover, with the rise of cobalt ions concentrations, the percentage of cobalt content in the samples increased gradually. CoNi films possessed crystal structures with four stronger diffraction peaks. However, CoNi films prepared from bath with higher cobalt ions possessed hcp structures which contributed to dendrite structures resulting in the increase of coercivity.

• 대한화학회지
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• 제34권1호
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• pp.51-62
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• 1990

다섯 자리 Schiff base cobalt(II) 착물로서 Co(II)(Sal-DET)와 Co(Ⅱ)(Sal-DPT)들을 합성하여 비수용매에서 산소와 반응시켜 산소첨가 착물로서 [Co(III)(Sal-DET)]$_2O_2$ 및 [Co(III)(DPT)]$_2O_2$들을 합성하였다. 이 착물들은 원소분석, IR spectra, TGA, DSC 및 자화율을 측정하여 확인하였으며, 비수용매에서 이들 착물들의 산소와의 몰결합비가 첫단계는 1:1이나 시간이 경과하면 고체상태에서와 같이 1:2로 가는 $\mu$-peroxo형의 6배위 Cobalt(III)착물들이 형성됨을 알았다. Co(II)(Sal-DET)및 Co(II)(Sal-DPT)와 이들 산소첨가 착물들의 0.1M TEAP-DMSO와 0.1M TEAP-pyridine 용액에서 순환전압-전류법 및 DPP법에 의한 환원과정은 두 단계로 일전자의 비가역적인 Co(III)/Co(II)와 Co(II)/Co(I)의 과정이 주어지나 산소첨가 착물에서 산소결합의 환원전위는 $E_{pc}$ = -0.97V∼-0.86V이고 이에 couple인 산화전위는 $E_{pa}$ = -0.87V ∼ 0.64V에서 일전자의 준가역적 산화환원 과정으로 일어남을 알았다.

• The Korean Journal of Ceramics
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• 제4권1호
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• pp.43-46
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• 1998

We have investigated the formation and thermal stability of cobalt aluminide(CoAl) thin films on GaAs. In order to obtain cobalt-aluminide thin films, we deposited a multilayer of Co/Al on GaAs, and subsequently annealed the samples at 80$0^{\circ}C$ for 30 min. After annealing, single-phase cobalt aluminide was produced showing a flat and uniform interface with GaAs. which indicates that cobalt aluminide (CoAl) is thermally stable with GaAs. In addition, the adherence and mechanical properties of the as-deposited, and annealed Co/Al multilayer structure on GaAs are compatible with those required for device fabrication processes. The electrical property of the CoAl/GaAs contact shows rectifying characteristics, indicating that the diodes were usable as rectifying gate electrodes.

• 한국분말재료학회지
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• 제12권5호
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• pp.336-344
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• 2005

In the present study, the focus is on the effect of cobalt oxide powder in the carbothermal reduction of the titanium-cobalt-oxygen based oxide powder by solid carbon for the optimizing synthesis process of ultra fine TiC/Co composite powder. The titanium-cobalt-oxygen based oxide powder was prepared by the combination of the spray drying and desalting processes using the titanium dioxide powder and cobalt nitrate as the raw materials. The titanium-cobalt-oxygen based oxide powder was mixed with carbon black, and then this mixture was carbothermally reduced under flowing argon atmosphere. Changes in the phase structure and thermal gravity of the mixture during carbothermal reduction were analysed using XRD and TGA. Titanium-cobalt-oxygen based oxide powder desalted at $600^{\circ}C$ had a mixture of $TiO_2\;and\;Co_{3}O_4$. And the one desalted at $800^{\circ}C$ had a mixture of $TiO_2\;and\;CoTiO_3$. In the case of the former powder, the reduction of cobalt oxide powder in the titanium-cobalt-oxygen based oxide powder occurred at lower temperature than the latter one. However, the carbothermal reduction of titanium dioxide powder in the titanium-cobalt-oxygen based oxide powder with a mixture of $TiO_2\;and\;Co_{3}O_4$ occurred at higher temperature than the one with a mixture of $TiO_2\;and\;CoTiO_3$. And also, the former powder showed a lower TiC formation ability than the latter one.

• 대한화학회지
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• 제33권2호
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• pp.192-202
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• 1989

네자리 Schiff base cobalt(II) 착물로서 Co(SED) 및 Co(ο-BSDT)들을 합성하여 이들 착물들의 DMSO와 Pyridine 용액에서 산소를 가하여 산소첨가 생성착물로서 $[Co(o-BSDT)(DMSO)]_2O_2,\;[Co(SED)(Py)]_2O_2$ 및 $[Co(o-BSDT)(Py)]_2O_2$들을 합성하고 이들의 원소분석과 cobalt 정량, IR Spectra, TGA 및 자화율을 측정하여 DMSO 용매에서는 산소 : cobalt(II) 착물의 결합비가 1 : 2이고 pyridine 용매에서의 첫단계는 1 : 1이지만 저온과 오랜 반응시간에는 1 : 2로 주어진다. 또한 네자리 Schiff base cobalt(II)는 DMSO 및 pyridine과 산소가 6배위 결합으로 주어짐을 알았으며 Co(SED) 및 Co(ο-BSDT) 착물들의 0.1M TEAP-DMSO와 0.1M TEAP-pyridine 용액에서 순환전압-전류법에 의한 산화-환원과정은 산소가 결합되지 않은 착물에서 Co(II)/Co(III)와 Co(II)/Co(I) 과정은 가역적 또는 준가역적으로 일어나지만 산소첨가 생성착물은 비가역적으로 일어나고 산소결합의 환원전위는 $E_{pc}=-0.85{\sim}-1.19V$에서 일어나고 이에 couple인 산화전위는 $E_{pa}=-0.74{\sim}-0.89V$에서 준가역적으로 일어남을 알았다.

• 대한화학회지
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• 제33권3호
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• pp.295-303
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• 1989

네자리 Schiff base cobalt(II) 착물로서 Co(SND) 및 Co(SOPD)을 합성하여 pyridine용액에서 산소를 반응시켜 산소첨가 생성물로서 $[Co(SND)(Py)]_2O_2$ 및 $[Co(SOPD)(Py)]_2O_2$ 을 합성하였다. 이 착물들은 원소분석과 cobalt 정량, IR spectra, T.G.A. 및 자화율을 측정하여 확인하였으며, 산소 : cobalt(II) 착물의 결합비가 1:2이고, 네자리 Schiff base cobalt(II)와 pyridine 및 산소가 6배위로 결합함을 알았다. 0.1M TEAP-pyridine 용액에서 순환전압전류법에 의한 $Co(SND)(Py)_2$ 및 $Co(SOPD)(Py)_2$ 들의 Co(II)/Co(III)와 Co(II)/Co(I) 산화환원 과정은 가역 및 준가역적으로 일어난다. 산소첨가 생성물의 착물들은 비가역적으로 일어나며, 이들의 산소에 대한 환원과정은 $E_{pc} \;=\;-0.96{\sim}-1.03V$에서, 산화과정은 $E_{pa}\;=\;-0.78{\sim}-0.80V$ 범위에서 일어나며, 이들 산화환원 과정은 준가역적으로 일어남을 알았다.

• Journal of Electrochemical Science and Technology
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• 제7권3호
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• pp.206-213
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• 2016

Transition metal oxide-based electrodes for lithium ion batteries have recently attracted much attention because of their high theoretical capacity. Here we report the electrochemical behavior of cobalt oxide nanorods as anodes, prepared by a template-free, one-step electrochemical deposition of cobalt nanorods, followed by an oxidation process. The as-deposited cobalt has a slightly convex columnar structure, and controlled thermal oxidation produces cobalt oxides of different Co/O ratios, while the original shape is largely preserved. As an anode in a rechargeable lithium battery, the Co/O ratio has a strong effect on initial capacity and cycling stability. In particular, the one-dimensional Co@Co_xO_y core shell structure obtained from a mild heat-treatment results in superior cycling stability.

• 한국재료학회지
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• 제26권8호
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• pp.401-405
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• 2016

The cobalt silicides were investigated for employment as a catalytic layer for a DSSC. Using an E-gun evaporation process, we prepared a sample of 100 nm-thick cobalt on a p-type Si (100) wafer. To form cobalt silicides, the samples were annealed at temperatures of $300^{\circ}C$, $500^{\circ}C$, and $700^{\circ}C$ for 30 minutes in a vacuum. Four-point probe, XRD, FE-SEM, and CV analyses were used to determine the sheet resistance, phase, microstructure, and catalytic activity of the cobalt silicides. To confirm the corrosion stability, we also checked the microstructure change of the cobalt silicides after dipping into iodide electrolyte. Through the sheet resistance and XRD results, we determined that $Co_2Si$, CoSi, and $CoSi_2$ were formed successfully by annealing at $300^{\circ}C$, $500^{\circ}C$, and $700^{\circ}C$, respectively. The microstructure analysis results showed that all the cobalt silicides were formed uniformly, and CoSi and $CoSi_2$ layers were very stable even after dipping in the iodide electrolyte. The CV result showed that CoSi and $CoSi_2$ exhibit catalytic activities 67 % and 54 % that of Pt. Our results for $Co_2Si$, CoSi, and $CoSi_2$ revealed that CoSi and $CoSi_2$ could be employed as catalyst for a DSSC.

• 한국분말재료학회지
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• 제18권3호
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• pp.244-249
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• 2011

Spherical nanosized cobalt powder with an average size of 150-400 nm was successfully prepared at room temperature from cobalt sulfate heptahydrate ($CoSO_4{\cdot}7H_2O$). Wet chemical reduction method was adopted to synthesize nano cobalt powder and hypophosphorous acid ($H_3PO_2$) was used as reduction agent. Both the HCP and the FCC Co phase were developed while $CoSO_4{\cdot}7H_2O$ concentration ranged from 0.7 M to 1.1 M. Secondary phase such as $Co(OH)_2$ and $CO_3O_4$ were also observed. Peaks for the crystalline Co phase having HCP and FCC structure crystallized as increasing the concentration of $H_3PO_2$, indicating that the amount of reduction agent was enough to reduce $Co(OH)_2$. Consequently, a homogeneous Co phase could be developed without second phase when the $H_3PO_2/CoSO_4{\cdot}7H_2O$ ratio exceeded 7.