• 한국염색가공학회지
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• 제13권5호
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• pp.24-24
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• 2001

Kinetics and mechanism for alkaline hydrolysis of C. I. Disperse Blue 79(B-79) which is 4-N, N-diacetoxyethyl-2-acylamino-5-ethoxy -2′-bromo-4′,6′-dinitroazobenzene were investigated. The color strength of B-79 in acetone/water solutions of various NaOH concentrations decreased continuously. The hydrolysis rate of B-79 increased with increasing alkali concentration and appeared following first order reaction. The observed rate constants for various concentrations of B-79 showed similar values, and B-79 was hydrolyzed by first order reaction for dye concentration. Therefore, it was confirmed that the overall reaction follow second order kinetics and proceed via S/sub n/2 reaction. From the study on kinetics and spectrometric analysis, it was proposed that the rate determining step of the hydrolysis reaction of B-79 is the nucleophilic substitution reaction - that is the reaction of the rapid attack of $OH^{-}$ on the carbon atom, which is in acceptor ring, adjacent to azo group to break the C-N bond. And it was also found that the final hydrolysis products of B-79 include both the acceptor ring in the form of sodium salt and the donor ring possessing 4-N,N-dihydroxyethyl group converted from 4-N,N-diacetoxyethyl group.

• 한국염색가공학회지
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• 제13권5호
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• pp.312-319
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• 2001

Kinetics and mechanism for alkaline hydrolysis of C. I. Disperse Blue 79(B-79) which is 4-N, N- diacetoxyethyl -2- acylamino-5-ethos y -2'-bromo-4',6'-dinitroazobenzene were investigated. The color strength of B-79 in acetone/water solutions of various NaOH concentrations decreased continuously. The hydrolysis rate of B-79 increased with increasing alkali concentration and appeared following first order reaction. The observed rate constants for various concentrations of B-79 showed similar values, and B-79 was hydrolyzed by first order reaction for dye concentration. Therefore, it was confirmed that the overall reaction follow second order kinetics and proceed via $S_N2$ reaction. From the study on kinetics and spectrometric analysis, it was proposed that the rate determining step of the hydrolysis reaction of B-79 is the nucleophilic substitution reaction - that is the reaction of the rapid attack of OH- on the carbon atom, which is in acceptor ring, adjacent to auto group to break the C-N bond. And it was also found that the final hydrolysis products of B-79 include both the acceptor ring in the form of sodium salt and the donor ring possessing 4-N,N-dihydroxyethyl group converted from 4-N, N-diacetoxyethyl group.

• 대한화학회지
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• 제44권5호
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• pp.429-434
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• 2000

Styryldiphenylphosphine(SDPO)의 가수분해 속도상수를 자외선 분광법으로 측정하여 넓은 pH에서 잘 맞는 반응속도식을 구하였다. pH에 따르는 속도상수의 변화, 가수분해 생성물의 확인, 일반염기 및 치환기 효과 등으로부터 실험 결과에 잘 맞는 반응 메커니즘을 제안하였다. 즉 pH 4.5 이하에서는 phosphine oxide기의 산소에 양성자가 첨가된 다음 탄소 이중결합에 물의 첨가가 일어나 가수분해가 진행되며, pH 4.5-8.0 사이에서는 물분자와 수산와 음이온의 첨가가 경쟁적으로 일어나 반응이 진행되었고, pH 8.0 이상에서는 반응속도 상수가 수산화 음이온의 농도에만 비례함을 알았다.

• Bulletin of the Korean Chemical Society
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• 제24권3호
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• pp.306-310
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• 2003

Hydrolysis reactions of S-phenyl-S-vinyl-N-p-tosylsulfilimine (VSI) and its derivatives at various pH have been investigated kinetically. The hydrolysis reactions produced phenylvinylsulfoxide and p-toluene sulfonamide as the products. The reactions are first order and Hammett ρ values for pH 1.0, 6.0, and 11.0 are 0.82, 0.45, and 0.57, respectively. This reaction is not catalyzed by general base. The plot of k vs pH shows that there are three different regions of the rate constants $(k_t)$ in the profile.; At pH < 2 and pH > 10, the rate constants are directly proportional to the concentrations of hydronium and hydroxide ion catalyzed reactions, respectively. The rate constant remains nearly the same at 2 < pH < 10. On the bases of these results, the plausible hydrolysis mechanism and a rate equation have been proposed: At pH < 2.0, the reaction proceeds via the addition of water molecule to sulfur after protonation at the nitrogen atom of the sulfilimine, whereas at pH > 10.0, the reaction proceeds by the addition of hydroxide ion to sulfur directly. In the range of pH 2.0-10.0, the addition of water to sulfur of sulfilimine appears to be the rate controlling step.

• Bulletin of the Korean Chemical Society
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• 제18권3호
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• pp.300-305
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• 1997

Effect of a nonionic surfactant, Tween 20 on the adsorption and kinetic mechanism for the hydrolysis of a microcrystalline cellulose, Avicel PH 101, by endoglucanase Ⅰ (Endo Ⅰ) and exoglucanase Ⅱ (Exo Ⅱ) isolated from Trichoderma viride were studied. The Langmuir isotherm parameters, amount of maximum adsorption (Amax) and adsorption equilibrium constant (Kad) for the adsorption, were obtained in the presence and the absence of nonionic surfactant. On the addition of Tween 20, the Kad and Amax values of Exo Ⅱ were decreased, while those of Endo Ⅰ were not affected. These indicate that the adsorption affinity of Exo Ⅱ on the cellulose is weakened by nonionic surfactant, and the surfactant enhanced desorption of Exo Ⅱ from insoluble substrate. The enzymatic hydrolysis of the cellulose can be described by two parallel pseudo-first order reactions using the percentages of easily (Ca) and hardly (Cb) hydrolyzable cellulose in Avicel PH 101 and associated rate constants (ka and kb). The Ca value was increased by adding Tween 20 for all enzyme samples (Exo Ⅱ, Endo Ⅰ and their 1:1 mixture) implying that the low-ordered crystalline fraction in the cellulose may be partly dispersed by surfactant. The ka value was not affect by adding Tween 20 for all enzyme samples (Exo Ⅱ, Endo Ⅰ and their 1:1 mixture). The kb value of Exo Ⅱ was increased by adding Tween 20, while that of Endo Ⅰ was not affected. This suggests that the surfactant helps the Exo Ⅱ desorb from microcrystalline cellulose, and increase the hydrolysis rate. These results were show that the increase of hydrolysis of cellulose by the nonionic surfactant is due to both the activation of Exo Ⅱ and partial defibrillation of the cellulose.

• Bulletin of the Korean Chemical Society
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• 제31권7호
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• pp.2015-2018
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• 2010

Second-order rate constants $(k_{OH^-})$ have been measured spectrophotometrically for alkaline hydrolysis of Y-substituted phenyl phenyl carbonates (2a-j) and compared with the $k_{OH^-}$ values reported previously for the corresponding reactions of Y-substituted phenyl benzoates (1a-j). Carbonates 2a-j are 8~16 times more reactive than benzoates 1a-j. The Hammett plots correlated with $\sigma^-$ and $\sigma^o$ constants exhibit many scattered points, while the Yukawa-Tsuno plot results in excellent linear correlation with $\rho$ = 1.21 and $\gamma$ = 0.33. Thus, the reaction has been concluded to proceed through a concerted mechanism in which expulsion of the leaving group is advanced only a little. However, one cannot exclude a possibility that the current reaction proceeds through a forced concerted mechanism with a highly unstable intermediate.

• Macromolecular Research
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• 제16권7호
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• pp.651-658
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• 2008

Poly(butylene succiate) (PBS), poly(butylene succinate-co-L-lactate) (PBSL), and poly(butylene succinate-co-6-hydroxycaproate) (PBSCL) polymers were degraded by lipase $PS^{(R)}$, and the enzymatic degradation mechanism of PBS was analyzed in detail. The enzymatic degradation of PBS gave 4-hydroxybutyl succinate (4HBS) as the main product. An exo-type hydrolysis mechanism was proposed based on this observation. The terminal chain of PBS had conformational similarity to ordinary tri- and diglycerides and could be incorporated as a substrate in the active site of this lipase. The surface adsorption of the lipase was much larger on PBS and its copolymer films than on the other polyester films because the lipase adhered quite strongly to the polymer terminal through a specific adsorption mechanism. Kinetic analysis showed that the total number of surface adsorption points per unit area of PBSL and PBSCL copolymers was larger than that of the PBS homopolymer.

• 한국환경과학회지
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• 제17권5호
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• pp.509-516
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• 2008

New functional surfactant, N,N-dimethyl-N-dodecyl-N-(2-methyl benzimidazoyl) ammonium chloride(DDBAC) having benzimidazole(BI) functional group have been synthesized and the critical micellar concentration of DDBAC measured by surface tentiometry and electric conductivity method was $8.9{\times}10^{-4}M$. Micellar effects in DDBAC functional surfactant solution on the hydrolysis of p-nitrophenylacetate(p-NPA), p-nitro-phenylpropionate(p-NPP) and p-nitrophenylvalerate(p-NPV) were observed with change of various pH (Tris-buffer). The pseudo first rate constants of hydrolysis of p-NPA, p-NPP and p-NPV in optimum concentration of DDBAC solution increase to about 160, 280 and 600 times, respectively, as compared with those of aqueous solution at pH 8.00(Tris-buffer). It is considered that benzimidazole functional moiety accelerates the reaction rates of hydrolysis because they act as nucleophile or general base. In optimum concentration of DDBAC solution, the rate constants of hydrolysis of p-NPP and p-NPV increase to about 1.5 and 3.0 times, respectively, as compared with that of p-NPA. It means that the more the carbon numbers of alkyl group of substrates, the larger the binding constants between DDBAC micelle and substrates are. To know the hydrolysis mechanism of p-NPCE(p-NPA, p-NPP and p-NPV), the deuterium kinetic isotope effects were measured in $D_2O$ solutions. Consequently the pseudo first order rate constant ratios in $H_2O$ and $D_2O$ solution, $k_{H_2O}/k_{D_2O}$, were about $2.8{\sim}3.0$ range. It means that the mechanism of hydrolysis were proceeded by nucleophile and general base attack in approximately same value.

• 대한화학회지
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• 제40권2호
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• pp.128-134
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• 1996

Dihydro-1, 4-oxathiin 유도체의 가수분해 반응속도를 25.deg.C의 수용액에서 자외선 분광기를 사용하여 측정하고 넓은 pH범위에서 적용될 수 있는 반응속도식을 유도하였다. 가수분해 반응속에에 미치는 치환기 효과를 검토하기 위하여 Hammett plot한 결과 전자 끄는기에 의하여 반응속도가 촉진됨을 확인할 수 있었다. 가수분해 최종 생성물은 2-(2-hydroxyethylthio)acetoacetanilide enol형이었다. 가수분해 반응속도상수 측정실험과 반응식 유도과장, 일반염기 효과, 치환기 효과 및 최종 생성물의 결과로부터 dihydro-1, 4-oxathiin 유도체의 기수분해 반응 메카니즘을 제안하였다. pH3.5이하에서는 양서자가 첨가된 dihydro-1, 4-oxathiin의 2번 탄소에 물분자의 공격에 의해 진행되며, pH3.5 이상에서는 2번 탄소에 히드록시이온의 첨가에 의하여 진행됨을 알 수 있었다. pH4.0-9.0사이에서는 dihydro-1, 4-oxathiin에 중성의 물분자가 첨가되는 것이 속도결정단계임을 알았다.

• Applied Biological Chemistry
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• 제38권5호
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• pp.455-462
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• 1995

새로운 6종의 제초성, N-(2,6-dimethoxypyrimidin-2-yl)aminocarbonyl-2-치환(Z)-6-(1-hyd roxy-2-fluoroethyl)benzenesulfonamide 유도체(S)를 합성하여 $45^{\circ}C$의 15%(v/v) acetonitrile 수용액속에서 일어나는 가수분해 반응상수를 측정하고 pH-효과, 용매효과, ortho-치환기 효과, 열 역학적 활성화 파라미터(${\Delta}H^{\neq}$및${\Delta}S^{\neq}$) 등의 반응 속도론적인 자료들과 pKa상수(4.80) 및 가수분해 반응 생성물(2-(1-hydroxy-2-fluoroethyl)benzenesulfonamide 및 4,6-dimethoxyaminopyrimidine) 분석 등의 비 반응 속도론적 결과로부터 반응속도식을 유도하고 반응메카니즘을 제안하였다. pH 8.0 이하에서는 일반 산-촉매반응($A-S_E2$)과 특정 산-촉매 반응으로 conjugate acid ($SH^+$)와 사면체 중간체(I)를 경유하는 A-2형(또는 $A_{AC}2$형)반응 그리고 pH 9.0 이상에서는 물 분자가 일반염기(B)로 작용하여 conjugate base (CB)를 경유하는 $(E_1)_{anion}$ 반응으로 진행되는 가수분해 반응 메카니즘을 검토하였으며 pH $7.0{\sim}9.0$사이의 용액중에서는 이들 두 반응이 경쟁적으로 일어남을 알았다.