The effect of sublimable vehicle composition in the camphor-naphthalene system on the pore structure ofporous Cu-Ni alloy is investigated. The CuO-NiO mixed slurries with hypoeutectic, eutectic and hypereutectic compo-sitions are frozen into a mold at -25oC. Pores are generated by sublimation of the vehicles at room temperature. Afterhydrogen reduction at 300oC and sintering at 850oC for 1 h, the green body of CuO-NiO is completely converted toporous Cu-Ni alloy with various pore structures. The sintered samples show large pores which are aligned parallel to thesublimable vehicle growth direction. The pore size and porosity decrease with increase in powder content due to thedegree of powder rearrangement in slurry. In the hypoeutectic composition slurry, small pores with dendritic morphologyare observed in the sintered Cu-Ni, whereas the specimen of hypereutectic composition shows pore structure of plateshape. The change of pore structure is explained by growth behavior of primary camphor and naphthalene crystals dur-ing solidification of camphor-naphthalene alloys.

본 연구에서는 PEN 수지 안전관리를 위하여 HPLC-UV검출기를 이용한 2,6-NDC 및 2,6-NDA 분석법을 확립하였다. 분석법 검증 결과, 2,6-NDC 및 2,6-NDA 모두 0.002μg/mL 검출한계, 0.005 μg/mL 정량한계 및 0.05~1 μg/mL의 농도 범위에서 r2= 0.999 이상의 직선성을 확인할 수있었다. 또한 회수율도 90~110%임을 확인할 수 있었다.

나프탈렌(Naphthalene)과 같은 다환방향족탄화수소류(Polycyclic aromatic hydrocarbons, PAHs)는 수계에 유입되어 해양생물들에게 영향을 미치게 된다. 나프탈렌은 유류속의 PAHs 내에서 함량이 가장 높으며, 독성이 강하다. 본 연구에서는 대조구(0 μg/L), 1000, 1800, 3200, 5600, 10000 μg/L의 6개 나프탈렌 농도구를 설정하고 넙치 치어에 대한 나프탈렌의 24시간 반수치사농도(24h-LC50)을 구했으며, 아가미, 간, 신장, 근육내의 나프탈렌 농도를 분석하였다. 넙치 치어의 24h-LC50은 Large 그룹에서 2410.76 μg/L, Small 그룹에서 2230.67 μg/L을 나타내었다. 각 조직에서의 나프탈렌 농도는 간 및 신장에서 아가미 및 근육보다 높았다.

넙치 치어에 대한 나프탈렌의 급성독성을 조사하기 위하여 대조구(0μg/L), 1000, 1800, 3200, 5600, 10000μg/L의 6개의 나프탈렌 농도구를 설정하여 24시간 동안 노출실험을 실시하고 혈액학적 성상을 분석하였다. 넙치 치어에 대한 나프탈렌의 24h-LC50은 3600μg/L를 나타냈다. 넙치 치어의 핼액학적 반응에서 헤마토크리트값은 5600, 10000μg/L의 농도구에서 대조구와 비교하여 유의하게 증가하였고, 글루코스는 10000μg/L의 농도 구에서 유의하게 증가 하였다(P〈0.05). 삼투질 농도는 3200, 5600, 10000μg/L의 농도구에서 유의하게 증가하였다. 반면, 이온분석 결과 [Na+], [K+]은 5600 및 10000μg/L 나프탈렌 농도구에서 유의하게 증가하였으나 [Cl-]는 큰 차이를 보이지 않았다.

The compound of 2,6-Bis[(9-phenylcarbazolyl)ethenyl]naphthalene (BPCEN-1), 2-[6-1-Cyano-2-(9-phenylcarbazoly)vinylnaphthyl]-3-(9-phenylcarbazolyl)acrylonitrile (BPCEN-2), 2,6-Bis[4-(1-naphthy l)phenylamino styrenyl] naphthalene (BNPASN-1), 2-[6-1-Cyano-2-(naphthylphenylaminophenyl) vinylnaphthyl]-3-(naphthylphenylaminophenyl)acrylonitrile (BNPASN-2) was analyzed electrochemically and spectroscopically and can be obtained by bonding phenylcarbazolyl, naphthylphenylaminophenyl and -CN ligands to 2,7-naphthalene. The electrochemical and spectroscopic study resulted in the P-type (BPCEN-1, BNPASN-1) being changed to N-type (BPCEN-2, BNPASN-2) according to -CN bonding despite having the same structure. The value of band gap(Eg) was revealed to be small as HOMO had shifted higher and LUMO lower. The Eg value for naphthylphenylaminophenyl ligand was reduced because it has a smaller HOMO/LUMO value than that of phenylcarbazolyl from a structural perspective. The electrochemical HOMO/LUMO values for BPCEN-1, BPCEN-2, BNPASN-1, BNPASN-2 were measured to be 5.55eV / 2.83eV, 5.73eV / 3.06eV, 5.48eV / 2.78eV, and 5.53eV / 2.98eV, respectively. By -CN ligand, the UV max, Eg and PL max were shifted to longer wavelength in their spectra and the luminescence band could be also confirmed to be broad in the photoluminescence (PL) spectrum.

In this study DMT(Dimethylterephthalate), NDC(Dimethyl-2, 6-Naphthalene Dicarboxylate) were used to synthesize polyester polyol which shows enhanced storage stability, improved flame retardancy, and good compressive strength. If DMT and NDC react respectively with DEG(Diethylene Glycol) which is kind of linear diol, the obtained polyester polyols tend to crystallize easily after the reaction. In case of DMT, PA(Phthalic Anhydride) which has asymmetric structure was introduced to retard the crystallization. In case of NDC, DPG(Dipropylene Glycol) which has an methyl side chain was introduced to prevent the crystallization. It was found that to introduce DPG was much more effective method to prevent the crystallization than PA. NDC and DMT were reacted together with DPG for various compositions of NDC:DMT(8:2, 6:4, 4:6 mol ratio). The obtained NDC-DMT-DPG based polyester polyol showed improved flame retardancy, and good compressive strength with increasing the content of NDC.

Separation of naphthalene from naphthalene and 2-methylnaphthalene mixture has been studied by layered melt and solution crystallization using ethylalcohol. Purity and yield of naphthalene depended mainly on the cooling rate: The effective distribution coefficient (Keff) as the degree of impurity removal was observed to decrease with the decreasing in cooling rate. Purity of naphthalene can be enhanced to 5~7% by melt crystallization using 90% naphthalene and the purity of naphthalene can be obtained to be 99% up by solution crystallization.

The environmental behaviors of polycyclic aromatic hydrocarbons (PAHs) are mainly governed by their solubility and partitioning properties on soil media in a subsurface system. In surfactant-enhanced remediation (SER) systems, surfactant plays a critical role in remediation. In this study, sorptive behaviors and partitioning of naphthalene in soils in the presence of surfactants were investigated. Silica and kaolin with low organic carbon contents and a natural soil with relatively higher organic carbon content were used as model sorbents. A nonionic surfactant, Triton X-100, was used to enhance dissolution of naphthalene. Sorption kinetics of naphthalene onto silica, kaolin and natural soil were investigated and analyzed using several kinetic models. The two compartment first-order kinetic model (TCFOKM) was fitted better than the other models. From the results of TCFOKM, the fast sorption coefficient of naphthalene (k1) was in the order of silica > kaolin > natural soil, whereas the slow sorbing fraction (k2) was in the reverse order. Sorption isotherms of naphthalene were linear with organic carbon content (foc) in soils, while those of Triton X-100 were nonlinear and correlated with CEC and BET surface area. Sorption of Triton X-100 was higher than that of naphthalene in all soils. The effectiveness of a SER system depends on the distribution coefficient (KD) of naphthalene between mobile and immobile phases. In surfactant-sorbed soils, naphthalene was adsorbed onto the soil surface and also partitioned onto the sorbed surfactant. The partition coefficient (KD) of naphthalene increased with surfactant concentration. However, the KD decreased as the surfactant concentration increased above CMC in all soils. This indicates that naphthalene was partitioned competitively onto both sorbed surfactants (immobile phase) and micelles (mobile phase). For the mineral soils such as silica and kaolin, naphthalene removal by mobile phase would be better than that by immobile phase because the distribution of naphthalene onto the micelles (Kmic) increased with the nonionic surfactant concentration (Triton X-100). For the natural soil with relatively higher organic carbon content, however, the naphthalene removal by immobile phase would be better than that by mobile phase, because a high amount of Triton X-100 could be sorbed onto the natural soil and the sorbed surfactant also could sorb the relatively higher amount of naphthalene.

본 연구는 속리산국립공원 내 쌍곡계곡에 분포하는 식물상을 조사하기 위해 수행되었고 조사기간은 2006년 3월부터 2007년 6월까지 조사하였다. 식물상을 조사한 결과, 88과 242속 342종 52변종 7품종 등 총 401분류군이 확인되었다. 한국특산식물은 개비자나무, 키버들, 개족도리, 할미밀망, 민산초나무, 청괴불나무, 병꽃나무, 분취 등 총 8분류군이 조사되었다. 환경부 지정 멸종위기식물은 망개나무 등 1분류군이며, 산림청 지정 희귀식물은 개족도리, 고란초, 망개나무, 백작약, 태백제비꽃, 꼬리진달래, 말나리 등 7분류군이 조사되었다. 이들의 보전을 위해서는 향후 희귀식물에 대한 구체적인 보전방안과 번식방법 등이 논의되어야 할 것으로 판단된다. 자원식물은 관상용 식물 220분류군, 식용 식물 239분류군, 약용 식물 281분류군, 기타용 식물 206분류군으로 나타났다. 귀화식물은 오리새, 소리쟁이, 취명아주, 아까시나무, 붉은토끼풀, 토끼풀, 큰달맞이꽃, 비짜루국화, 붉은서나물, 개망초, 망초, 뚱딴지, 서양민들레 등 13분류군이 관찰되었으며, 귀화율은 약 3.24%, 자연파괴도는 약 4.53%로 나타났다.