• 한국신재생에너지학회:학술대회논문집
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• 한국신재생에너지학회 2010년도 추계학술대회 초록집
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• pp.84.1-84.1
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• 2010

Since the discovery of the carbon nanotube(CNTs), they have attracted much attention because of unique properties that may impact many fields of science and technology. The considerable properties of CNTs include high surface area, outstanding thermal, electrical conductivity and mechanical stability. However, uniform deposition of Pt nanoparticles on carbon surface remains inaccessible territory because of the inert carbon surface. In this study, we prepared directly oriented CNTs on carbon paper as a catalyst support in cathode electrode. carbon surface was functionalized using aryl diazonium salt for increasing adhesion of Ni particles which is precursor for growing CNTs. For fabricate electrode, CNTs on carbon paper were grown by chemical vapor deposition using Ni catalyst and Pt nanoparticles were deposited on CNTs oriented carbon paper by polyol method. The performance was measured using Proton electrolyte Membrane Fuel Cell(PEMFC). The structure and morphology of the Pt nanoparticles on CNTs were characterized by Scanning electron Microscopy(SEM) and Transmission electron Microscopy (TEM). The average diameter of Pt nanoparticles was 3nm.

• 한국전기전자재료학회논문지
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• 제15권7호
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• pp.627-633
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• 2002

Many isolated featureless domains were explicitly observed even at the air-water interface. We measured the surface pressure shift originating from the photo-isomerization of azobenzene units on the periphery of dendrimers. The maximum surface pressure was gradual1y increased and saturated by cyclic compression and decompression. By irradiation of 365 [nm] light, the surface pressure was increased, which was originated by the photo-isomerization process of the azobenzene group on the periphery from trans to cia form. The increase of the dipole moment ($\mu$), which may increase the interaction among Azo dendrimer molecules, made an important role on surface pressure shift. From the absorbance spectrum by UV irradiation and heat treatment, we can see that the absorbance in the UV region decreases with the increase of the UV irradiation time, but the peak at 350 m, characteristic of dendrimers in the LB monolayers, was not shifted until four irradiation cycles. This suggests that optical behavior and morphological change are affected by the functional group and the symmetric chain.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2012년도 제43회 하계 정기 학술대회 초록집
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• pp.223-223
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• 2012

Surface engineering plays a significant role in fabricating highly functionalized materials applicable to industrial and biomedical fields. Surface wrinkles and folds formed by ion beam or plasma treatment are buckling-induced patterns and controlled formation of those patterns has recently gained considerable attention as a way of creating well-defined surface topographies for a wide range of applications. Surface wrinkles and folds can be observed when a stiff thin layer attached to a compliant substrate undergoes compression and plasma treatment is one of the techniques that can form stiff thin layers on compliant polymeric substrates, such as poly (dimethylsiloxane) (PDMS). Here, we report two effective methods using plasma modification techniques for controlling the formation of surface wrinkles and folds on flat or patterned PDMS substrates. First, we show a method of creating wrinkled diamond-like carbon (DLC) film on grooved PDMS substrates. Grooved PDMS substrates fabricated by a molding method using a grooved master prepared by photolithography and a dry etching process were treated with argon plasma and subsequently coated with DLC film, which resulted in the formation of wrinkled DLC film aligning perpendicular to the steps of the pre-patterned ridges. The wavelength and the amplitude of the wrinkled DLC film exhibited variation in the submicron- to micron-scale range according to the duration of argon plasma pre-treatment. Second, we present a method for controlled formation of folds on flat PDMS substrates treated with oxygen plasma under large compressive strains. Flat PDMS substrates were strained uniaxially and then treated with oxygen plasma, resulting in the formation of surface wrinkles at smaller strain levels, which evolved into surface folds at larger strain levels. Our results demonstrate that we can control the formation and evolution of surface folds simply by controlling the pre-strain applied to the substrates and/or the duration of oxygen plasma treatment.

• 폴리머
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• 제36권6호
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• pp.795-802
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• 2012

소수성 고분자 표면을 화학적 처리를 통해 활성화시키고 화학반응을 통해 발색단을 도입하는 연구를 진행하였다. 2-Triphenylstannylthioethyl acrylate를 자외선 조사시켜 고분자 필름을 만들었다. 필름 표면에 노출된 주석치환체를 불소이온으로 처리하여 SH를 형성함으로써 필름표면에 많은 SH를 생성시켰고 적외석 흡수스펙트럼으로 이를 확인하였다. 아크릴 유도체로 만든 발색단 물질을 노출된 SH와 반응시켜 필름 표면에 여러 발색단을 도입할 수 있었고 이를 자외선-가시광선 흡수스펙트럼으로 관찰할 수 있었다. 2-Triphenylstannylthioethyl acrylate와 tris(hydroxymethyl) ethane에서 유도된 triacrylate를 혼합하여 얻은 광경화 필름에서 단분자 함량 변화에 따른 SH의 표면 노출량을 변화시킬 수 있음을 흡수스펙트럼을 통해 관찰하였다. 유사하게, 2-tributylstannylthioethyl acrylate를 이용한 광경화 필름을 만들어 표면반응 연구를 진행하였다. 이 경우, 불소이온 처리를 통한 표면 활성화는 약 5분 이내로 빠르게 진행되었다. 이소시안 작용기를 갖는 발색단을 합성하여 필름과 반응시켜 표면에 발색단 도입하는 비교연구를 진행하였다. 아크릴 유도체가 표면 SH와 반응이 24시간 이상을 요구하는 반면 이소시안 유도체는 10분 이내에 결합반응이 완료되었다.

• 통합자연과학논문집
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• 제3권3호
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• pp.168-173
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• 2010

Novel porous silicon chip exhibiting dual optical properties, both Frbry-Perot fringe (optical reflectivity) and photoluminescence had been developed and used as chemical sensors. Porous silicon samples were prepared by an electrochemical etch of p-type sillicon wafer (boron-doped, <100> orientation, resistivity 1 - 10 ${\Omega}$). The ething solution was prepared by adding an equal volume of pure ethanol to an aqueous solution of HF (48% by weight). The porous silicon was illuminated with a 300 W tungsten lamp for the duration of etch. Ething was carried out as a two-electrode Kithley 2420 preocedure at an anodic current. The surface of porous silicon was characterized by FT-IR instrument. The porosity of samples was about 80%. Three different types of porous silicon, fresh porous silicon (Si-H termianated), oxidized porous silicon (Si-OH terminated), and surface-derivatized porous silicon (Si-R terminated), were prepared by the thermal oxidation and hydrosilylation. Then the samples were exposed to the wapor of various organics vapors. such as chloroform, hexane, methanol, benzene, isopropanol, and toluene. Both reflectivity and photoluminescence were simultaneously measured under the exposure of organic wapors.

• 한국복합재료학회:학술대회논문집
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• 한국복합재료학회 2003년도 추계학술발표대회 논문집
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• pp.1-2
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• 2003

While aromatic polyimides and polyamides have found widespread use as high performance polymers, the present work addressed the need for organosoluble materials through the use of a hyperbranching scheme. The $AB_2$ monomers were prepared. The $AB_2$ monomers were then polymerized via aromatic fluoride-displacement and Yamazaki reactions to afford the corresponding hydroxyl-terminated hyperbranched polyimides (HT-PAEKI) and amine-terminated hyperbranched polyamides, respectively. HT-FAEKI was then functionalized with allyl and propargyl bromides as well as epichlorohydrin to afford allyl-terminated AT-PAEKI, propargyl-terminated PT-PAEKI, and epoxy (glycidyl)-terminated ET-PAEKI, in that order. All hyperbranched poly(ether-ketone-imide)s were soluble in common organic solvents. AT-PAEKI was blended with a bisphenol-A-based bismaleimide (BFA-BMI) in various weight ratios. Thermal, rheological, and mechanical properties of these blend systems were evaluated. Two characteristic hyperbranched polyamides, which the one has para-electron donating groups to the surface amine groups and the other has para-electron withdrawing groups to the surface amine groups, were selected to compare BMI curing behaviors. The electron rich polymer displayed ordinary Michael addition type exothermic reaction, while electron deficient polymer did display unusual curing behaviors. Based on analytical data, the later system provided the strong evidences to support room temperature curing of BMI by reactive intermediates instead of reactive primary amine groups on the macromolecule surface.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2012년도 제42회 동계 정기 학술대회 초록집
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• pp.191-191
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• 2012

InP quantum dot (QD) - organosilicon nanocomposites were synthesized and their photoluminescence quenching was mainly investigated because of their applicability to white LEDs (light emitting diodes). The as-synthesized InP QDs which were capped with myristic acid (MA) were incompatible with typical silicone encapsulants. Post ligand exchange the MA with a new ligand, 3-aminopropyldimethylsilane (APDMS), resulted in soluble InP QDs bearing Si-H groups on their surface (InP-APDMS) which allow embedding the QDs into vinyl-functionalized silicones through direct chemical bonding, overcoming the phase separation problem. However, the ligand exchange from MA to APDMS caused a significant decrease in the photoluminescent efficiency which is interpreted by ligand induced surface corrosion relying on theoretical calculations. The InP-APDMS QDs were cross-linked by 1,4-divinyltetramethylsilylethane (DVMSE) molecules via hydrosilylation reaction. As the InP-organosilicon nanocomposite grew, its UV-vis absorbance was increased and at the same time, the PL spectrum was red-shifted and, very interestingly, the PL was quenched gradually. Three PL quenching mechanisms are regarded as strong candidates for the PL quenching of the QD nano-composites, namely the scattering effect, Forster resonance energy transfer (FRET) and cross-linker tension preventing the QD's surface relaxation.

• Bulletin of the Korean Chemical Society
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• 제35권4호
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• pp.1159-1164
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• 2014

A simple, highly sensitive and selective method based on the rhodamine B-covered gold nanoparticle with dual-readout (colorimetric and fluorometric) detection for $\small{L}$-cysteine is proposed. A mechanism is that citrate-stabilized AuNPs were modified with RB by electrostatic interaction, which enables the nanometal surface energy transfer (NSET) from the RB to the AuNPs, quenching the fluorescence. In the presence of $\small{L}$-cysteine, it was used as a competitor in the NSET by the strongly Au-S bonding to release RB from the Au surface and recover the fluorescence, and the red-to-purple color change quickly, which was monitored simply by the naked eye. Under the optimum conditions, the detection limit is as low as 10 nM. The method possessed the advantages of simplicity, rapidity and sensitivity at the same time. The method was also successfully applied to the determination of $\small{L}$-cysteine in human urine samples, and the results were satisfying.

• 공업화학
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• 제27권2호
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• pp.185-189
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• 2016

많은 생체 친화적인 센서들 중에서 avidin-biotin system은 높은 상호 특이적인 친화성으로 인하여 많은 생물학적인 응용 연구에 이용되어 왔다. 효과적인 avidin-biotin 바이오센서 개발을 위해 avidin-biotin 간의 상호 반응성을 증대시키기 위해서는 높은 표면적을 가지는 전극이 필요하다. 본 연구에서는 이러한 목적을 위해 gold nanorods electrode를 사용하였다. 전기화학적인 특성은 cyclic voltammetry (CV)와 electrochemical impedance spectroscopy (EIS)를 가지고 redox couple $[Fe(CN)_6]^{3-/4-}$를 사용하여 다양한 biotin의 농도에 따라 분석되었다. 결론적으로 nanorod의 전극은 1 ng/mL보다 낮은 biotin의 농도도 감지할 수 있음을 보였다.

• 공업화학
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• 제27권4호
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• pp.439-443
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• 2016

본 연구에서는 $MnO_2$ 나노입자들이 기능화된 그래핀에 증착된 나노복합체를 제조하고 이의 우수한 전기화학적 특성을 순환전압전류법, 정전류 충전-방전법 및 임피던스 분석을 통하여 증명하였다. 환원된 그래핀 산화물의 표면 개질을 위하여 이온성 액체를 도입함으로써, 그래핀 시트들 간의 뭉침현상을 제어하고 $MnO_2$ 나노입자들의 성장부위를 제공하였다. 상기 제조된 $MnO_2/RGO$ 나노복합체는 전자주사현미경, 투과전자현미경, X선 광전자 분광기, X선 회절기를 사용하여 분석하였다. $MnO_2/RGO$ 전극의 전기화학적 특성은 $Na_2SO_4$ 전해액을 사용하여 3상 전극 시스템 하에서 분석실시하였다. $MnO_2/RGO$ 전극은 높은 비정전용량(251 F/g), 고속 충방전(80.5% 용량 유지율) 및 장수명 특성(93.6% 용량 유지율)을 나타내었다.