• 한국진공학회:학술대회논문집
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• 한국진공학회 2015년도 제49회 하계 정기학술대회 초록집
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• pp.244.2-244.2
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• 2015

염료감응형 태양전지(DSSC)는 친환경성과 저렴한 제조공정이 장점으로 최근에 많은 관심을 받고 있다. 현재에는 DSSC를 다양한 반도체 나노입자를 염료에 흡착시키거나, 무반사 코팅등 광학적인 접근을 통해 효율을 증가시키려는 실험이 활발히 진행되고 있다. 다른 한편으로는 DSSC의 효율을 떨어뜨리지 않으면서 DSSC의 장점인 저렴한 제조단가를 더 줄이는 연구가 진행되고 있다. 본 연구에서는 DSSC의 재료물질 중 가장 비싼 편인 Pt 박막을 다른 물질로 대체하기 위해, 몇 가지 공정을 거쳐 추출한 carbon을 사용하였다. 전형적인 DSSC 제작을 위해, FTO glass와 TiO2, 액체전해질을 사용하였고, 제작된 carbon 물질을 solvent에 섞은 뒤 counter electrode에 닥터 블레이드 방식으로 바르고 열처리하였다. 제작된 carbon을 분석하기 위해서 scanning electron microscope (SEM)과 X-ray diffraction (XRD)를 사용하였으며, counter electrode에 carbon을 사용한 DSSC는 Pt 박막을 사용한 일반적인 DSSC와 비교하였을 시에 만족할 만한 효율을 보이는 것을 확인하였다.

• 센서학회지
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• 제26권2호
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• pp.73-78
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• 2017

A tetrode is one of the neural electrodes, and it is widely used to record neural signals in the brain of a freely moving animal. The impedance of a neural electrode is an important parameter because it determines the signal-to-noise ratio of the recorded neural signals. Here, we developed a modification technique using carbon nanotube-polypyrrole composite nanostructures to decrease the impedances of tetrodes. The synthesis of the carbon nanotube and polypyrrole nanostructures was performed in two steps. In the first step, randomly dispersed carbon nanotubes and pyrrole monomers were gathered and aligned on the tetrode electrode. Next, they were electro-polymerized on the electrode surface. As the applied time (step-1 and step-2) and the offset voltage increased, the impedances of the tetrodes decreased. The modification technique is, therefore, an important and useful of lowering the impedances of tetrodes.

• 한국전기전자재료학회논문지
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• 제20권4호
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• pp.337-341
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• 2007

In this paper, we studied counter electrodes that carbon materials is used for dye-sensitized solar cells. Carbon electrodes characterized by changing of CMC wt. %. We investigated a porous structure of electrodes and a specific resistance of carbon electrodes for identification of electric conductivity. The specific resistance of carton electrodes increased by an increase of CMC wt. % and this result affected an efficiency of the cells.

• Carbon letters
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• 제22권
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• pp.70-80
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• 2017

Activated carbons (ACs) have been used as electrode materials of electric double-layer capacitors (EDLC) due to their high specific surface areas (SSA), stability, and ecological advantages. In order to make high-energy-density ACs for EDLC, petroleum pitch (PP) pre-carbonized at $500-1000^{\circ}C$ in $N_2$ gas for 1 h was used as the electrode material of the EDLC after KOH activation. As the pre-carbonization temperature increased, the SSA, pore volume and gravimetric capacitance tended to decrease, but the crystallinity and electrode density tended to increase, showing a maximum volumetric capacitance at a medium carbonization temperature. Therefore, it was possible to control the crystalline structure, SSA, and pore structure of AC by changing the pre-carbonization temperature. Because the electrode density increased with increasing of the pre-carbonization temperature, the highest volumetric capacitance of 28.4 F/cc was obtained from the PP pre-carbonized at $700^{\circ}C$, exhibiting a value over 150% of that of a commercial AC (MSP-20) for EDLC. Electrochemical activation was observed from the electrodes of PP as they were pre-carbonized at high temperatures above $700^{\circ}C$ and then activated by KOH. This process was found to have a significant effect on the specific capacitance and it was demonstrated that the higher charging voltage of EDLC was, the greater the electrochemical activation effect was.

• 한국분말재료학회지
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• 제29권4호
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• pp.297-302
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• 2022

This study compares the characteristics of a compact TiO₂ (c-TiO₂) powdery film, which is used as the electron transport layer (ETL) of perovskite solar cells, based on the manufacturing method. Additionally, its efficiency is measured by applying it to a carbon electrode solar cell. Spin-coating and spray methods are compared, and spray-based c-TiO₂ exhibits superior optical properties. Furthermore, surface analysis by scanning electron microscopy (SEM) and atomic force microscopy (AFM) exhibits the excellent surface properties of spray-based TiO₂. The photoelectric conversion efficiency (PCE) is 14.31% when applied to planar perovskite solar cells based on metal electrodes. Finally, carbon nanotube (CNT) film electrode-based solar cells exhibits a 76% PCE compared with that of metal electrode-based solar cells, providing the possibility of commercialization.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2007년도 하계학술대회 논문집 Vol.8
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• pp.481-481
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• 2007

This work describes the effect of the number of roll pressing and the composition of carbon black on the electric and mechanical properties of carbon-PTFE electrode, in which composition is MSP 20 : carbon black: PTFE = 95-x : x : 5 wt.%. It was found that the best electric and mechanical properties were obtained in sheet electrode roll-pressed for about 15 times and in sheet electrode, in which composition is MSP 20 : carbon black: PTFE = 80 : 15 : 5 wt.%. These behaviors could be explained by the network structure of PTFE fibrils and conducting paths linked with carbon blacks, respectively. On the other hand, cell capacitor using the sheet electrode with 15 wt.% of carbon black attached on aluminum current collector with the electric conductive adhesive, in composition is carbon black : CMC = 70 : 30 wt.%, has exhibited the best rate capability in the current range of $0.5mA/cm^2$ $100mA/cm^2$ and the lowest equivalent series resistance.

• Korean Chemical Engineering Research
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• 제62권1호
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• pp.13-18
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• 2024

웨어러블 디바이스용 유연 전극 소재 개발을 위해 탄소섬유 토우(carbon fibers tow)의 전처리에 따른 전기화학적 특성을 조사하고, 이를 활용하여 포도당을 타겟으로 전기화학적 비효소 센서를 제작하였다. 탄소섬유 토우는 탈사이징(desizing)과 활성화(activation) 공정을 통해 전처리 되었으며, 활성화는 화학적 산화와 전기화학적 산화의 두 가지 방법으로 이루어졌다. 전처리된 샘플은 주사전자 현미경(SEM)을 이용하여 표면 분석되었으며, 전기화학적 특성 및 센싱성능 분석은 시간대전류법와 순환전압 전류법, 전기화학 임피던스 분석법을 이용하여 수행되었다. 탄소섬유 토우는 전처리를 통해 감소된 R_et와 ΔE_p, 증가된 I_p 등 향상된 전기화학적 특성을 보였으며, 두 활성화 방법에서는 유사한 전기화학적 특성이 얻어졌다. 본 연구에서는 전기화학센서 적용을 위해 전기화학적으로 활성화된 탄소섬유 토우를 최종 전극 물질로 선정하였다. 이 전극을 기반으로 제작된 비효소적 포도당 검출 센서는 0.09899~3.754 mM과 3.754~50 mM의 선형 구간에서 각각 0.744 mA/mM과 0.330 mA/mM 정도의 향상된 감도를 보였다. 본 연구를 통해 탄소섬유 토우의 전극 소재로서 사용 가능성을 확인했으며, 고성능 유연 전극 소재 개발에 기초 연구로 활용 가능할 것으로 기대된다.

• 대한화학회지
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• 제33권2호
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• pp.225-231
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• 1989

$trans-[Co(en)_2X_2](ClO_4)_n$가 Co(II) 상태의 착물로 (X : 시아나이드, 나이트라이트, 암모니아, 그리고 이소티오시아네이트)되는 전극 환원반응 속도상수를 탄소전극에서 순환전압전류법 및 회전원판전극을 이용하여 측정하고 수은전극에서 순환전압전류법 및 펄스폴라로그래피법으로 측정하여 착물의 분광학적 흡수파수와 관계를 조사하였다. 탄소전극에서는 흡수파수가 증가할 때 전극반응의 활성화자유에너지가 증가하며 좋은 직선성을 보이지만 $NO_2^-$가 배위된 착물의 경우에는 수은전극에서 흡수파수와 활성화에너지의 관계가 비선형적이었으며 활성화엔트로피 역시 크게 나타났고 전극반응 전이계수도 크게 얻어졌다. 수은전극에서는$NO_2^-$가 배위된 착물은 다른 착물과 다르게 innersphere 메카니즘으로 환원되며 $NO_2^-$가 수은전극 표면으로 배향되어 전자전이가 일어나는 것으로 제안하였다.

• Transactions on Electrical and Electronic Materials
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• 제15권5호
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• pp.265-269
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• 2014

Carbon nanofiber electrode has been fabricated for energy storage systems by the electrospinning of SU-8 precursor and subsequent pyrolysis. Various parameters including the applied voltage, the distance between syringe tip and target collector and the flow rate of the polymer affect the diameter of SU-8 electrospun nanofibers. Shrinkage during pyrolysis decreases the fiber diameter. As the pyrolysis temperature increases, the resistivity decreases dramatically. Low resistivity is one of the important characteristics of the electrodes of an energy storage device. Given the advantages of carbon nanofibers having high external surface area, electrical conductivity, and lithium intercalation ability, SU-8 derived carbon nanofibers were applied to the anode of a full lithium ion cell. In this paper, we studied the physical properties of carbon fiber electrode by scanning transmission microscopy, thermal gravimetric analysis, and four-point probe. The electrochemical characteristics of the electrode were investigated by cyclic voltammogram and electrochemical impedance spectroscopy plots.

• 공업화학
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• 제31권5호
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• pp.552-559
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• 2020

Activated carbon-nickel (II) oxide (AC-NiO) electrodes were studied as materials for the capacitive deionization (CDI) of aqueous sodium chloride solution. AC-NiO electrodes were fabricated through physical mixing and low-temperature heating of precursor materials. The amount of NiO in the electrodes was varied and its effect on the deionization performance was investigated using a single-pass mode CDI setup. The pure activated carbon electrode showed the highest specific surface area among the electrodes. However, the AC-NiO electrode with approximately 10 and 20% of NiO displayed better deionization performance. The addition of a dielectric material like NiO to the carbon material resulted in the enhancement of the electric field, which eventually led to an improved deionization performance. Among all as-prepared electrodes, the AC-NiO electrode with approximately 10% of NiO gave the highest salt adsorption capacity and charge efficiency, which are equal to 7.46 mg/g and 90.1%, respectively. This finding can be attributed to the optimum enhancement of the physical and chemical characteristics of the electrode brought by the addition of the appropriate amount of NiO.