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저에너지 고출력 이온빔을 이용한 polyvinylidene fluoride 표면의 초친수성화
박종용,정연식,최원국,Park Jong-Yong,Jung Yeon-Sik,Choi Won-Kook 한국재료학회 2005 한국재료학회지 Vol.15 No.6
Polyvinylidene fluoride (PVDF) surface was irradiated and became superhydrophilic by low energy (180 eV) and high flux $(\~10^{15}/cm{\cdot}s)$ ion beam. As an ion source, a closed electron Hall drift thruster of $\phi=70mm$ outer channel size without grid was adopted. Ar, $O_2$ and $N_2O$ were used for source gases. When $N_2O^+$ and $O_2^+$ reactive gas ion beam were irradiated with the ion fluence of $5\times10^{15}/cm^2$, the wetting angle for deionized water was drastically dropped from $61^{\circ}\;to\;4^{\circ}\;and\;2^{\circ}$, respectively. Surface energy was also increased up to from 44 mN/m to 81 mN/m. Change of chemical component in PVDF surface was analyzed by x-ray photoelectron spectroscopy. Such a great increase of the surface energy was intimately related with the increase of hydrophilic group component in reactive ion irradiated PVDF surfaces. By using an atomic force microscopy, the root-mean-square of surface roughness of ion irradiated PVDF was not much altered compared to that of pristine PVDF.
김길영,정연식,변동진,최원국,Kim, Gil-Young,Jung, Yeon-Sik,Byun, Dong-Jin,Choi, Won-Kook 한국세라믹학회 2005 한국세라믹학회지 Vol.42 No.4
단결정 사파이어 (0001) 기판 위에 저가의 초산아연(Zinc Acetate Dehydrate; ZAH) 전구체를 이용하여 초음파 열분해법과 Ar 가스를 이용한 ZnO 박막을 성장시켰다. Thermogravimetry-Differential Scanning Calorimetry(TG-DSC) 초산아연의 열분해 과정을 조사하여 $380^{\circ}C$ 이상에서 ZnO로 분해되는 것을 확인하였다. $380-700^{\circ}C$에서 증착된 ZnO 박막은 모두 ZnO (002), (101) 결정면으로 부터의 회절피크를 보여주고 있었으며, $400^{\circ}C$ 박막의 경우 c-압축 스트레인 ${\Sigma}Z=0.2\%$, 압축 응력 $\sigma=-0.907\;GPa$이 작용하고 있음을 알 수 있었다. 전자 현미경을 이용한 미세 구조의 관찰을 통하여 $380-600^{\circ}C$에서는 초산아연과 ZnO 초미세 입자가 혼합된 aggregate 형태의 결정립을 형성하고 있었으며, nanoblade 형태의 미세구조를 보였다. 한편 $700^{\circ}C$에서 증착된 박막내의 결정립은 찌그러진 육방정계의 형태를 취하고 있으며, 10-25nm 정도의 부결정림 초미세 ZnO 입자로 이루어져 있음을 알 수 있었다. 초미세 입자의 형성을 임의 핵형성 기구(random nucleation mechanism)로 설명하였고, photoluminescence(PL) 측정을 통하여 광 특성을 조사하였다. ZnO was deposited on sapphire single crystal substrate by an ultrasonic pyrolysis of Zinc Acetate Dehydrate (ZAH) with carrying Ar gas. Through Thermogravimetry-Differential Scanning Calorimetry(TG-DSC), zinc acetate dihydrate was identified to be dissolved into ZnO above $380^{\circ}C$. ZnO deposited at $380-700^{\circ}C$ showed polycrystalline structures with ZnO (101) and ZnO (002) diffraction peaks like bulk ZnO in XRD, and from which c-axis strain ${\Sigma}Z=0.2\%$ and compressive biaxial stress$\sigma=-0.907\;GPa$ was obtained for the ZnO deposited $400^{\circ}C$. Scanning electron microscope revealed that microstructures of the ZnO were dependent on the deposition temperature. ZnO grown below temperature $600^{\circ}C$ were aggregate consisting of zinc acetate and ZnO particles shaped with nanoblades. On the other hand the grain of the ZnO deposited at $700^{\circ}C$ showed a distorted hexagonal shape and was composed of many ultrafine ZnO powers of 10-25 nm in size. The formation of these ulrafine nm scale ZnO powers was explained by the model of random nucleation mechanism. The optical property of the ZnO was analyzed by the photoluminescence (PL) measurement.
고출력 저에너지 이온빔을 이용한 InP(100) 표면의 나노 패턴형성
박종용,최형욱,정연식,최원국,Park Jong Yong,Choi Hyoung Wook,Ermakov Y.,Jung Yeon Sik,Choi Won-Kook 한국재료학회 2005 한국재료학회지 Vol.15 No.6
InP(100) crystal surface was irradiated by ion beams with low energy $(180\~225\;eV)$ and high flux $(\~10^{15}/cm^2/s)$, Self-organization process induced by ion beam was investigated by examining nano structures formed during ion beam sputtering. As an ion source, an electrostatic closed electron Hall drift thruster with a broad beam size was used. While the incident angle $(\theta)$, ion flux (J), and ion fluence $(\phi)$ were changed and InP crystal was rotated, cone-like, ripple, and anistropic nanostrucuture formed on the surface were analyzed by an atomic force microscope. The wavelength of the ripple is about 40 nm smaller than ever reported values and depends on the ion flux as $\lambda{\propto}J^{-1/2}$, which is coincident with the B-H model. As the incident angle is varied, the root mean square of the surface roughness slightly increases up to the critical angle but suddenly decreases due to the decrease of sputtering yield. By the rotation of the sample, the formation of nano dots with the size of $95\~260\;nm$ is clearly observed.
고분자 전해질 막 연료 전지용 1차원 나노 구조 촉매의 연구 현황
전기웅(Kiung Jeon),정연식(Yeon Sik Jung) 한국세라믹학회 2018 세라미스트 Vol.21 No.4
With the expectation to overcome the problem of increasing energy consumption, polymer electrolyte membrane fuel cells are getting more attention as a promising environmentally friendly and sustainable next-generation energy conversion system. In spite of the rapid improvement of polymer electrolyte membrane fuel cells(PEMFCs), there are several critical issues still need to be resolved for practical commercialization. Out of the many issues, the main hurdle comes from oxygen reduction reaction(ORR), thus development of efficient ORR electrocatalysts is the main key for enhancing PEMFC performance. Among various catalysts, 1D nanostructured catalyst is a promising candidate because it holds many advantages that come from nanostructuring while supplementing the disadvantages of other nanostructures such as nanoparticles(0D) or gyroids(3D). This review focused on diverse 1D nanostructures and talks about their advantages as catalyst for ORR. Different 1D nanostructures will be introduced while applying the structures to different materials system showing the prospects of 1D nanostructures for improving PEMFC.
시멘트 및 고로슬래그 경화체의 양생환경에 따른 미세 공극구조 형성 특성에 관한 실험적 연구
박철(Park Cheol),정연식(Jung, Yeon-Sik),서치호(Seo, Chee-Ho) 대한건축학회 2017 大韓建築學會論文集 : 構造系 Vol.33 No.12
When industrial by-products like slag and fly ash are using in concrete with cement, it improves strength and durability against external deterioration factors by densifying the structure through potential hydraulic and pozzolanic reaction. But it has been pointed out that high dependence on the quality variation and the curing condition using a admixure material for concrete. In this study, the characteristics of internal micropore structure according to curing condition were analyzed for pastes and mortar specimens under using blast furnace slag powder. As a result, the variation of compressive strength and the internal microstructure were observed according to curing conditions by binder type. Particularly, using blast furnace slag powder, decrease in compressive strength were clearly observed in indoor and carbonation curing compared with water curing. The pore structure analysis also clearly observed the decrease of the gel pore existing in the CSH hydrate layer and the increase of the capillary pore in indoor and carbonation curing compared with water curing condition
결합재 및 양생조건이 경화 콘크리트의 염소이온 이동 특성에 미치는 영향에 대한 실험적 고찰
박철(Park Cheol),정연식(Jung, Yeon-Sik),서치호(Seo, Chee-Ho) 대한건축학회 2017 大韓建築學會論文集 : 構造系 Vol.33 No.11
Mineral admixture is generally known to densify internal matrix through pozzolan reaction and potential hydraulic reaction. Also it blocks penetration of degradation factors from external. But proper curing is necessary for targeting performance on using mineral admixture. In this study, author evaluates the effect of binder and curing condition on the chloride ion transport characteristics under using blast furnace and fly ash through chloride ion penetration resistance and diffusion coefficient of concrete. As a result of the study, the conditions using blast furnace slag and fly ash, large difference in chlorine ion transport characteristics was observed depending on the curing condition compared with using only cement conditions. Especially, the condition of using blast furnace slag and fly ash in air and carbonation curing condition significantly decreased the chloride ion permeability and the chloride ion diffusion coefficient compared with under water curing conditions.