• Proceedings of the Membrane Society of Korea Conference
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• 1993.04a
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• pp.28-29
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• 1993

최근에 들어 고분자막을 이용하는 분리공정이 다양한 분야에 걸쳐 중요한 역할을 하고 있으나 적용공정에 따라 개선해야 할 점들을 가지고 있다. 역삼투공정의 수행에 있어 폴리아미드막(PA)은 투과유량이 CA막보다 3-5배 정도이며 기계적 강도에서도 우수한 성능을 발휘하지만 CA막을 완전히 대체하지 못하고 있는 실정이다. 이 이유는 아미드결합이 공정상에 포함되는 염소에 대해 저항성을 가지고 있지 못한 때문이다. 이런 문제들은 물질의 구조에 지배적인 영향을 받는다. 본 연구에서는 Friedel-Crafts reaction을 이용하여 합성된 술폰기를 단량체와 기존의 입체장애를 가지는 단량체를 가지고 고분자를 중합하고 비용매 중에 침적시켜 술폰기를 갖는 폴리아미드를 제조하였다. 침적시 비용매로는 아세톤, 에탄올, 물등이 좋은 경향을 보였다. 얻어진 고분자를 열분석을 통해 열적특징을 살펴보았으며, 또한 이들에 대한 염소저항성을 타진하여 역삼투 공정막으로서의 사용가능성을 살펴 보았다.

• Archives of Pharmacal Research
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• v.17 no.3
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• pp.190-193
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• 1994

Friedel-Crafts reaction isopropoxybenzene with methyl $\alpha$-chloro-$\alpha$-(maethylthio)acetate 1 afforded methyl $\alpha$-methylthio-p-isopropoxyphenylacetate 2d, which was readily converted into methyl p-isopropoxyphenylacetate 3 by reductive desulfurization with zinc dust in acetic acid. Methylation of 3 with sodium hydride and methyl iodide gave methyl $\alpha$-(p-isopropoxyphenyl)propionate 5. Methyl p-hydroxyphenylakanoates (4,6), useful intermediates for some medicines, were easily prepared by treatment of 3 and 5 with titanium tetrachloride, respectively.

• Proceeding of EDISON Challenge
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• 2013.04a
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• pp.203-204
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• 2013

Phenylalanine Ammonia Lyase (PAL)는 phenylalanine의 산성도가 더 큰 ammonium hydrogen 과는 반응하지 않고 그것의 nonacidic ${\beta}$ proton을 제거하는 역할을 한다. Phenylalanine은 electrophilic 그룹을 갖고 있으며 지난 30 여년 동안 phenylalanine의 electrophilic 그룹이 PAL의 반응 기작에 중요한 역할을 한다고 믿어왔다. 그러나 최근 X-ray와 UV spectroscopy를 통하여 상당히 electrophilic 한 5-methylene-3,5-dihydroimidazol-4-one (MIO) 그룹이 발견되었다. 이전의 연구들은 실험을 통하여 MIO와 관련된 electrophile에 의한 Friedel-Crafts Attack 메커니즘과 electrophile에 대한 nucleophilic addition 메커니즘을 제시하였으며, 본 연구진은 양자계산을 통하여 두 가지 메커니즘의 에너지 차이를 살펴봄으로써 더욱 합리적인 메커니즘을 제시, 규명하고자 한다. 본 연구에서는 특히 electrophile에 대한 nucleophilic addition 메커니즘에 대하여 양자계산을 이용하여 반응물, 생성물, 전이상태의 분자 구조를 제시하고 반응이 일어나는데 필요한 에너지를 계산하고자 한다.

• YAKHAK HOEJI
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• v.47 no.1
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• pp.1-4
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• 2003

In order to search the new serotonin bioisoster, 2-(5,6-dimethoxy-l-indenyl)ethyl amine(1) was synthesized. 3,4-Dimethoxybenzaldehyde, as starting material, was condensed with malonic acid in the presence of pyridine and piperidine to form 3,4-dimethoxycinnamic acid(2). Compound 2 was performed catalytic hydrogenation with 10％ Pd-C to give propanoic acid derivative 3, which was cyclized by Friedel-Crafts acylation to afford 5,6-dimethoxyindan-l-one(4). Compound 4 was reduced with NaBH$_4$ in ethanol to obtain l-indanol 5, and it was dehydrated to give 5,6-dimethoxy-l-indene(6). This compound was lithiated with 2.5M n-butyllithium and reacted with 1,2-dibromoethane to give 2-(5,6-dimethoxy-l-indenyl)ethyl bromide(7), and which was treated with anhydrous ammonia to synthesize compound 1.

• Journal of the Korean Chemical Society
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• v.55 no.2
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• pp.230-234
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• 2011

The present study describes the synthesis of 4,5-dihydro-6-(4-methoxy-3-methylphenyl)-3(2H)-pyridazinone derivatives. The synthesis of the first target compound, 4,5-dihydro-6-(4-methoxy-3-methylphenyl)-3(2H)-pyridazinone (1), was achieved by Friedel-Crafts acylation of o-cresyl methyl ether with succinic anhydride and subsequent cyclization of the intermediary g-keto acid with hydrazine hydrate. Condensation of compound 1 with aromatic aldehydes in the presence of sodium ethoxide affords the corresponding 4-substituted benzyl pyridazinones (3a-d). The dihydropyridazinone 1 underwent dehydrogenation upon treatment with bromine/acetic acid mixture to give (4). Pyridazine (5) has been synthesized upon the reaction of pyridazinone (1) with 1,3-diphenyl-2-propen-1-one under the Michael addition reaction. N-dialkylaminomethyl derivatives 6a-b have been obtained from the reaction of pyridazinone 1 with formaldehyde and secondary amine, whereas reaction of 1 with formaldehyde gives N-hydroxymethyl derivative (7). This study also includes the synthesis of the 3-chloropyridazine derivative 8 in excellent yield by heating pyridazinone 3b in phosphorus oxychloride. The behaviour of the chloro derivative toward sodium azide, benzyl amine and anthranilic acid was also studied. The proposed structures of the products were confirmed by elemental analysis, spectral data and chemical evidence.

• YAKHAK HOEJI
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• v.30 no.6
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• pp.311-316
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• 1986

A new UV labeling reagent was developed and used in HPLC for the determination of prostaglandin $E_2$ which have weak UV light-absorbing property. This reagent, 2-bromoacetyltriphenylene, was synthesized by the bromination of 2-acetyltriphenylene which was obtained from triphenylene by Friedel-Crafts reaction. The wave length maximum (${\lambda}_{max}^{CH_3CN}$ of this reagent was 268nm. Prostaglandin E$_2$ was extracted from prostaglandin E$_2$-$\beta$-cyclodextrin using a Sep-pak $C_{18}$ cartridge. The prostaglandin E$_2$ was labeled with 2-bromoacetyl-triphenylene in aectonitrite using 18-crown-6-ether as catalyst. Derivatized prostaglandins were separated on a reversed-phase column (Radial-pak) $\mu$-Bondapak $C_{18}$ using acetonitrile: water=60:40 as mobile phase. The effluent was monitored by UV detector at 254nm filter kit. Linearity of calibration curve was obtained between 30ng and 140ng, and the lower limit of detection was 5ng.