• Journal of the Korean Chemical Society
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• v.14 no.1
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• pp.45-48
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• 1970

The WLF equation is derived from the theory of rate processes in conjunction with the theory of liquids of significant structures. The empirical parameters in the WLF equation are discussed and compared with the corresponding quantities in the derived equation.

• Korean Chemical Engineering Research
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• v.46 no.2
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• pp.301-309
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• 2008

In this study, the effect of formaldehyde to phenol (F/P) molar ratios, catalyst wt%, and reaction temperature on the chemical structure was studied utilizing a two-level full factorial experimental design. The effect of three variables on the chemical structure was analyzed by using three-way ANOVA of SPSS. Concentration of methyrol-substituted phenols after 300 min addition reaction increased with higher the F/P mole ratio, lower the reaction temperature and lower the catalyst wt%. Resol catalysed by barium hydroxide showed higher addition of formaldehyde onto ortho positions of phenolic rings. A simplified elementary reaction model for resole type phenolic resin formation which do not consider the dissociation of phenolic compounds and the fraction of formaldehyde in the form of methylene glycol was proposed and compared with Zavitsas' type models. Elementary reaction model showed error of 2.79% compared to the error of 3.27% in Zavitsas' type models. It was thought that the elementary reaction model could be used to predict the behavior of addition reaction in resol formation.

• Korean Chemical Engineering Research
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• v.47 no.3
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• pp.373-379
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• 2009

Cesium carbonate was used as an adsorbent to capture carbon dioxide from gaseous stream of carbon dioxide, nitrogen, and moisture in a fixed-bed to obtain the breakthrough data of $CO_2$. The deactivation model in the non-catalytic heterogeneous reaction systems is used to analyze the sorption kinetics among carbon dioxide, carbonate, and moisture using the experimental breakthrough data. The experimental breakthrough data are fitted very well to the deactivation model than the adsorption isotherm models in the literature.

• Journal of the Korean Chemical Society
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• v.38 no.12
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• pp.921-923
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• 1994

• Journal of the Korean Chemical Society
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• v.41 no.5
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• pp.266-270
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• 1997

• Journal of the Korean Chemical Society
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• v.42 no.1
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• pp.108-111
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• 1998

• Journal of the Korean Chemical Society
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• v.32 no.3
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• pp.285-287
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• 1988

• Proceeding of EDISON Challenge
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• 2015.03a
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• pp.6-13
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• 2015

이 연구는 초기 지구의 대기 환경에서 유기화합물(glycine)이 합성되는 실험(Urey-Miller 실험)에서의 반응 경로를 Deterministic한 방법의 중간체 sampling 방법으로 반응 네트워크를 구성하고 Yen's알고리즘으로 네트워크 내의 최단경로를 제시함으로써 반응물과 생성물이 결정되어 있을 때 최소한의 화학적 직관만을 이용하여 제시하는 것이 목표이다. 이 연구 결과는 2014년도 Nature Chemistry에 발표된 다른 방법론을 적용하여 제시된 Urey-Miller reaction path와 비교해 어떠한 반응이 상대적으로 더 타당한 경로를 제시했을지 알아보았다. 이 연구에서 나온 reaction path에서의 중간체들에 대해 GAMESS를 이용한 B3LYP/6-31g(d,p) DFT계산을 수행하였다. 결과를 분석해보면서 어떤 부분이 부족하며 이 연구에 적용한 방법론을 어떻게 발전시켜나가야 더 나은 결과를 얻을 수 있을지를 함께 고려해 보았다.

• Journal of the Korean Chemical Society
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• v.19 no.2
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• pp.123-129
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• 1975

The rate constants of the hydrolysis of phenylvinylsulfone were determined by ultraviolet spectrophotometry at various pH and a rate equation which can be applied over wide pH range was obtained. The reaction mechanism of hydrolysis of phenylvinylsulfone and especially the catalytic contribution of hydroxide ion which did not study carefully before in acidic media, can be fully explained by the rate equation obtained. The rate equation reveals that: below pH 7, the reaction is initiated by the addition of water molecule to phenylvinylsulfone. At above pH 9, the overall rate constant is only dependent upon the concentration of hydroxide ion.

• Journal of the Korean Chemical Society
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• v.30 no.5
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• pp.475-482
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• 1986

Rates and equilibriurn of complex formation between $Ni^{2+}$ and D-penicillamine have been investigated in aqueous solutions. Kinetic study on the complex formation were performed in the pH range of 8∼9 by the use of pressure-jump technique. D-Penicillamine coordinates to the nickel(II) ion utilizing sulfur and nitrogen as donor atoms in the high pH condition (pH 9.2). However, in the pH range of 8.25∼9.07, the stepwise stability constant becomes drastically reduced and the undissociated mercapto group does not participate in bonding. The rate-determining step of the complexation reaction is found to be the release of a water molecule from the inner-coordination sphere of $Ni^{2+}$ ion.