계면활성제는 수용액에서 미셀을 형성함에 있어서 자기확산이 분자 운동과 상변화에 대하여 자세한 정보를 제공하고 공업적으로 응용할 수 있는 기술이 점차 증가하고 있다. 계면활성제가 미셀을 형성함에 있어 자기확산 정도는 화학구조의 변화성과 상호 결합 및 회합현상에 매우 민감한 것은 사실이다. 특히 계면활성제 용액의 넓은 범위의 분자 시스템과 콜로이드 상태의 변화성은 다향한 물리, 화학적 성질에 기여됨이 많다. 더욱이 미셀 형성에서 자기확산 계수는 분자 치환에 직간접적으로 상호관계가 있어 NMR 분광학에서 스핀 이완속도의 해석과 분자의 재배열, 스핀 이완에 대한 모델선정 등에 많은 관심을 갖는다. 그중 미셀형성에 있어서 자기확산에 대한 측정 방법중 가장 많이 이용되고 있는 Fourier Transform Pulsed Gradient Spin Echo(FT-PGSE) 측정법은 계면활성제의 미셀형성에 대한 상변화성 및 물리, 화학적 성질을 다루는데 새로운 도구로 제공되고 있다. 이는 이 계통의 기술적 측정방법에 있어서 적절한 개선과 새로운 응용분야를 확장하는데 있어서 많은 가능성을 갖고있다. 그리하여 이들에 대한 역사적 배경과 기초적인 이론을 가지고 미셀 형성에 있어 자기확산에 대한 개념을 말하고 그에 대한 응용성을 계통적으로 설명하고자 한다.
Photo-crosslinkable polyimide(PI) which contains CF3 moiety was synthesized. Polarized UV light transformed ketone group of PI to hydroxyl group, which was confirmed by IR and UV-visible spectroscopy. We investigated the dichroic UV-absorption before and after photo-reaction with linearly polarized light. In particular we have attempted to clarify the relationship between the anisotropy of surface region and surface azimuthal anchoring energy and knew that the anchoring energy of photo-alignment PI is comparable with that of mechanical rubbing.
Sesame seed (Sesamum indicum L.) is an important seasoning in Korea and most korean consumer tend to eat the korean sesame seed as the best than other ones produced in oriental countries such as China and Japan. Near infrared reflectance spectroscopy (NIRS) was applied for discrimination according to geographical origin (Korea, China and so on) of sesame seeds. Near-infrared spectroscopy among the many kinds of techniques could provide a rapid screening, low cost solution to discriminate geographical origin of sesame seed. The objective of this study is to determine if NIR technique could be used to discriminate between the korean sesame seed and non-korean sesame seed by using the new method. Rapid, precise and nondestructive analysis method for determination of the geographic origin of sesame seeds were discriminated relative accurately according to geographical origin using PLS regression method.
Algin is known as biodegradable natural polymer from marine plants. PVA/Algin blend films were prepared by solution blending method for the purpose of useful biodegradable polymer. Characteristics properties of PVA/Algin blend films such as DSC, Elongation, Tensile strength and Morphological change by SEM were determined. Tensile strength and Elongation were rapidly reduced as increasing the blend ratio of Algin. PVA/Algin blend films were found that phase separation was occured as more than 25wt% increasing the blend ratio of Algin. Blend films were observed to be less partially compatibility than 10wt% increasing the blend ratio of Algin by DSC, mechanical properties and SEM. Also, PVA/Algin blend films at the laboratory soil test(Pot Test) were completely degraded in months with four kinds of soils by microorganisms.
We used Cu as a representative of metals to be directly adsorbed on the bare Si surface and studied its removal DHF, DHF-H2O2 and BHF solution. It has been found that Cu ion in DHF adheres on every Si wafer surface that we used in our study (n, p, n+, p+) especially on the n+-Si surface. The DHF-H2O2 solution is found to be effective in removing metals featuring high electronegativity such as Cu from the p-Si and n-Si wafers. Even when the DHF-H2O2 solution has Cu ions at the concentration of 1ppm, the solution is found effective in cleaning the wafer. In the case the n+-Si and p+-Si wafers, however, their surfaces get contaminated with Cu When Cu ion of 10ppb remains in the DHF-H2O2 solution. When BHF is used, Cu in BHF is more likely to contaminate the n+-Si wafer. It is also revealed that the surfactant added to BHF improve wettability onto p-Si, n-Si and p+-Si wafer surface. This effect of the surfactant, however, is not observed on the n+-Si wafer and is increased when it is immersed in the DHF-H2O2 solution for 10min. The rate of the metallic contamination on the n+-Si wafer is found to be much higher than on the other Si wafers. In order to suppress the metallic contamination on every type of Si surface below 1010atoms/cm2, the metallic concentration in ultra pure water and high-purity DHF which is employed at the final stage of the cleaning process must be lowered below the part per trillion level. The DHF-H2O2 solution, however, degrades surface roughness on the substrate with the n+ and p+ surfaces. In order to remove metallic impurities on these surfaces, there is no choice at present but to use the NH4OH-H2O2-H2O and HCl-H2O2-H2O cleaning.
Recently, high luminance and efficiency were realize in organic thin film electroluminescence (EL) cells with multilayer structures including an emitting layer (EML), hole transporting layer (HTL), and an electron transporting layer (ETL). In this study, Bis(10-hydroxybenzo[h]quinolinato)beryllium (Bebq2) was synthesized. PL and EL characteristics of their thin film were investigated by fabricating the devices having a structure of ITO/PVK/Bebq2/Al, ITO/PVK dispersed with TPD/Bebq2/Al. The EL color of these device was greenish and the wavelength of their EL peaks was located, respectly, at 495nm, and 492.5nm.
This study was designed to examine the effect of Ω-3 fatty acid, linlenic acid, EPA, DHA on serum lipid and cytokines of male rats(Sprague-Dawley). Animals of 3 groups were administrated perilla oil, salmoon oil, and tuna oil of 0.4 ml/day for 8 weeks respectively. These oils were used for a source of linolenic acid, EPA and DHA. Ω-3 polyunsaturated fatty acid decreases significantly body weight, serum PGE2 content and serum cytokines content of the rat, and increases internal organs weight, specially liver weight and serum HDL-cholesterol level of the rat. In the results, authors propose to use perilla oil for source of effective Ω-3 poly-unsaturated fatty acid(linolenic acid) to Prevent cardiovascular and immune diseases.
For a cosmetic plant wastewater containing surfactants of high concentration, adsorption treatment by granular activated carbon(GAC) having different pore size distribution was studied. Three sorts GACs were used and regenerated afterwards with methanol. Experiments were composed of batch process and column test for both virgin and regenerated GACs. Following conclusions were drawn from the study: Methylene blue activating substance(MBAS) adsorption data from the batch tests for three GACs are described well by BET isotherm and Freundich isotherm. Simulation with the BET isotherm shows that maximum adsorption appears to be affected not only by specific surface area but also by pore size distribution. Maximum adsorption from the BET isotherm for MBAS appears to diminish as the number of reactivation increases. The diminishing ratio of maximum adsorption appears to decrease as the pore size decreases. Recovery ratio of the methanol by vacuum evaporation from the spent methanol ranges from 95% to 97%.
Chitosan and Algin are known as a natural polymers. Biodegradable films were prepared by solution blend method in the weight ratio of natural polymer(low, medium, high-Chitosan, Algin) for the purpose of useful bioimplants. The possibility of bioimplants, which were prepared from natural polymers as a skin substitute and food wrapping materials were evaluated by measuring biodegradability. This biodegradable films were inserted in the back of rats and their biodegradability was investigated by hematological change evaluation as a function of time to biotransformation. It was found that these values of biodegradable films give some good results with short period test.
HF purification performance of an ion exchange membrane(IEM) was evaluated with 0.5% HF spiked with 10ppb of Fe, Ni and Cu nitrates. The result show that after less than five turnovers through an IEM, the metallic impurity concentration drops below 1ppb. The decrease rate can be fitted to a model assuming the experimental tanks to be continuously stirred tank reaction and that the metallic impurity concentration after the IEM is a function of the single-pass purification efficiency of the membrane, the concentration before purification and the metals desorbed form the IEM. The Concentration after purification was investigated up to a cumulative Fe loading of 300ppb in the 23 liter recirculated loop. It increases linearly vs. cumulative loading and can be explained by the Langmuir theory resulting in a purification efficiency at the equilibrium of close to 99.5% in this loading regime.
Glycoside fatty acid esters were synthesized by lipase-catalyzed glycosylation of fatty acids with methyl glycoside in solvent and solvent free process. Optimum condition of solvent process using 2-methyl-2-propanol were : moral ratio of methyl glycoside to fatty acid 1:3: initial concentration of methyl glycoside 50g/l:enzyme(immodilized lipase Novozym 435 from Candidia antarctica) content 1%(w/v) : desiccant content 9%(w/v); reaction temperature 60℃: reaction time 10hrs. The yield of 99% was obtained. Solvent-free process was carried out in total absence of solvent at 70℃ under reduced pressure, 5-20mmHg. To give meximum yield of 99% at the optimum condition of molar ratio of methyl glycoside to fatty acid 1:3, enzyme content 10%(w/w), and reaction time 10hrs. The glycosylation reactivity of different glycosylation agents were sequent to Methyl-β-D-fructofuranoside. Methyl-β-D-glucopyranoside. Methyl-β-D-fructofuranosi de, and Methyl-α-D-glucopyranoside.
In the separation of toluene/n-heptane mixture by the emulsion type liquid membrane in a batch system, the effect of surfactants on the separation factor and membrane stability were studied over the surfactant concentration ranging from 0.1 to 1.5 wt% at the contact time of 5 and 10 minutes and the settling time 5 and 10 minutes. The surfactants used were triethanol amine lauryl sulfate. The separation factor reached its maximum value at the surfactant concentration of 0.5 wt%. It was found that the percentage of membrane breakup reached its minium values and the separation factor showed its maximum value at the surfactant concentration of 0.5 wt%, which confirmed that efficient separation could be effect when emulsion liquid membrane were stable because of low membrane break up.
P-type의 단결정 실리콘 위에 1000a의 열산화막을 성장시킨후 5500a의 다결정 실리콘으로 증착된 시료를 가지고 HBr/Cl2/He-O2 혼합기체로 식각할 때 시료의 식각 특성에 관한 H2-O2 기체함량. RF 전력, 압력에 대한 영향을 XPS(X-ray photoelectron Spectroscopy)와 SEM(Scanning Electron Microscopy)으로 조사하였다. HBr/Cl2/He-O2 혼합기체로 식각되는 동안 형성된 다결정 실리콘 식각속도는 H2-O2 함량 증가에 따라 증가하였으며 식각잔유물은 RF 전력과 압력변화에 의해 영향은 받지 않는 것으로 나타났으며, 다결정 실리콘 측벽에서의 증착속도는 낮은 RF전력과 높은 압력에서 높게 나타났다. 다결정 실리콘 식각 잔유물의 결합에너지는 안정한 SiO2인 열산화막의 경우보다 높으므로 식각 잔유물은 SiOχ(χ>2)의 화합결합을 가지는 산화물과 같은 잔유물로 생각된다.