• Bulletin of the Korean Chemical Society
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• 제32권12호
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• pp.4265-4269
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• 2011

A method based on ethyl acetate extraction and gas chromatography with tandem mass spectrometry was developed for determining tetraconazole residues in fruits and vegetables. A 10 g homogenized sample was mixed with 10 mL ethyl acetate, shaken vigorously for 3 min, stored at $-20^{\circ}C$ for 15 min, and then vortexed vigorously for 1 min; 1 g NaCl and 4 g anhydrous $MgSO_4$ were added. The clean-up was carried out by applying dispersive solid-phase with 150 mg $MgSO_4$and 50 mg primary secondary amine. Three precursor product ion transitions for tetraconazole were measured and evaluated to provide the maximum degree of confidence. Average recoveries in fruits and vegetables at three levels (0.005, 0.05 and 0.5 mg/kg) ranged from 85.53% to 110.66% with relative standard deviations ($RSD_r$) from 1.3% to 17.5%. The LODs ranged from 0.002 to 0.004 ${\mu}g$/kg, and LOQs ranged from 0.006 to 0.012 ${\mu}g$/kg. This method was also applied to determine tetraconazole residue in cucumber dissipation experiment under field conditions. The half-lives of tetraconazole in cucumber were in the range of 2.1-3.1 days.

• 공업화학
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• 제25권2호
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• pp.215-221
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• 2014

염기 처리에 의한 간단한 방법으로 합성된 $MnO_2$ (B-$MnO_2$)는 불균일 촉매시스템으로 호기성 조건에서 효과적인 아민 산화반응을 보여주었다. 이 B-$MnO_2$ 촉매는 다양한 종류의 방향족, 이원자 화합물, 비활성 지방족 등의 아민의 전환에 높은 활성과 선택성을 보여주었다. 이러한 산화반응은 온화한 온도($50^{\circ}C$)와 대기압의 공기 조건하에서 아민을 중간체인 이민으로 전환하고 자가 축합(self-condensation) 또는 산화적 탈수소화(oxidative dehydrogenation)을 통해 다이이민(diimine) 또는 나이트릴(nitrile)을 생성하였다. 사용된 촉매는 여과로 쉽게 분리할 수 있었고 5번 이상의 재사용 실험에서도 일정이상의 높은 수율을 보여주었다. 따라서 B-$MnO_2$는 아민 산화반응을 통해 이민과 나이트릴을 얻음에 있어 경제적으로나 환경친환적으로 효과적인 면을 보여 줌으로써, 그린화학(green chemistry)의 목적에 적합하다.

• Bulletin of the Korean Chemical Society
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• 제29권7호
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• pp.1359-1363
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• 2008

Second-order rate constants have been determined spectrophotometrically for reactions of 2,4-dinitrophenyl 2- thiophenecarboxylate (2) with a series of alicyclic secondary amines in 80 mol % $H_2O$/20 mol % DMSO at 25.0 ${\pm}$ 0.1 ${^{\circ}C}$. The Brønsted-type plot exhibits a downward curvature, i.e., the slope decreases from 0.74 to 0.34 as the amine basicity increases. The $pK_a$ at the center of the Brønsted curvature, defined as $pK_a^o$, has been determined to be 9.1. Comparison of the Brønsted-type plot for the reactions of 2 with that for the corresponding reactions of 2,4-dinitrophenyl 2-furoate (1) suggests that reactions of 1 and 2 proceed through a common mechanism, although 2 is less reactive than 1. The curved Brønsted-type plot has been interpreted as a change in RDS of a stepwise mechanism. The replacement of the O atom in the furoyl ring by an S atom (1 $\rightarrow$ 2) does not alter the reaction mechanism but causes a decrease in reactivity. Dissection of the apparent second-order rate constants into the microscopic rate constants has revealed that the $k_2/k_{-1}$ ratio is not influenced upon changing the nonleaving group from furoyl to thiophenecarbonyl. However, $k_1$ has been calculated to be smaller for the reactions of 2 than for the corresponding reactions of 1, indicating that the C=O bond in the thiophenecarboxylate 2 is less electrophilic than that in the furoate 1. The smaller k1 for the reactions of 2 is fully responsible for the fact that 2 is less reactive than 1.

• 한국동물위생학회지
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• 제34권4호
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• pp.429-439
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• 2011

This article described the comparison of a quick, easy, cheap, effective, rugged and safe (QuEChERS) sample preparation and the classical method established by National Veterinary Research and Quarantine Service (NVRQS) for the determination of pesticide residues in livestock products using GC-tandem mass spectrometry. The classical method by NVRQS used liquid-liquid partioning followed by evaporizing. The modified QuEChERS entailed extraction of 2 g sample with 15 ml acetonitrile containing 1% acetic acid followed by addition of 6 g anhydrous magnesium sulfate and 1.5 g sodium acetate. After centrifugation, 6 ml of the extract underwent a cleanup step (in a technique known as column-based solid phase extraction) using 400 mg each of $C_{18}$ and primary secondary amine sorbents plus 1,200 mg magnesium sulfate. The quantitation of individual pesticides by both methods was based on tissue standard calibration curves with a correlation coefficient in excess of 0.98 for the 24 pesticides. The detection limits by the classical method were ranged 1.3~5.0 ${\mu}g$/kg, with mean recoveries between 76.2% and 114.3% except aldrin (59.3%) and deltamethrin (63.6%). The detection limits by modified QuEChERS were ranged 0.3~6.2 ${\mu}g$/kg, with mean recoveries between 68.0% and 114.3% except dimethipin (152.6%), chlorfenvinphos (138.1%), 4,4-DDT (61.5%), aldrin (60.4%) and chinomethionate (30.3%).

• Bulletin of the Korean Chemical Society
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• 제30권1호
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• pp.214-218
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• 2009

Second-order rate constants ($k_N$) have been measured for nucleophilic substitution reactions of S-4-nitrophenyl thiobenzoate with a series of alicyclic secondary amines in $H_2O$ containing 20 mol % DMSO at 25.0 ${\pm}$ 0.1 ${^{\circ}C}$. The Br$\phi$nsted-type plot exhibits a downward curvature, i.e., $\beta_{nuc}$ decreases from 0.94 to 0.34 as the amine basicity increases. The reactions in the aqueous DMSO have also been suggested to proceed through a zwitterionic tetrahedral intermediate (T${\pm}$) with change in the RDS on the basis of the curved Br$\phi$nsted-type plot. The reactions in the aqueous DMSO exhibit larger $k_N$ values than those in the aqueous EtOH. The macroscopic rate constants ($k_N$) for the reactions in the two solvent systems have been dissected into the microscopic rate constants ($k_1\;and\;k_2/k_{-1}$ ratio) to investigate effect of medium on reactivity in the microscopic level. It has been found that the $k_2/k_{-1}$ ratios are similar for the reactions in the two solvent systems, while $k_1$ values are larger for the reactions in 20 mol % DMSO than for those in 44 wt % EtOH, indicating that the larger $k_1$ is mainly responsible for the larger $k_N$. It has been suggested that the transition state is more stabilized in 20 mol % DMSO through mutual polarizability interaction than in 44 wt % EtOH through H-bonding interaction.

• Bulletin of the Korean Chemical Society
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• 제15권10호
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• pp.881-888
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• 1994

The approximate rates and stoichiometry of the reaction of excess sodium tris(diethylamino)aluminum hydride (ST-DEA) with selected organic compounds containing representative functional groups under standardized conditions(tetrahydrofuran, $0{\circ}$) were studied in order to characterize the reducing characteristics of the reagent for selective reductions. The reducing ability of STDEA was also compared with those of the parent sodium aluminum hydride (SAH) and lithium tris(diethylamino)aluminum hydride (LTDEA). The reagent appears to be milder than LTDEA. Nevertheless, the reducing action of STDEA is very similar to that observed previously for LTDEA, as is the case of the corresponding parent sodium and lithium aluminum hydrides. STDEA shows a unique reducing characteristics. Thus, benzyl alcohol, phenol and 1-hexanol evolved hydrogen slowly, whereas 3-hexanol and 3-ethyl-3-pentanol, secondary and tertiary alcohols, were essentially inert to STDEA. Primary amine, such as n-hexylamine, evolved only 1 equivalent of hydrogen slowly. On the other hand, thiols examined were absolutely stable. STDEA reduced aidehydes and ketones rapidly to the corresponding alcohols. The stereoselectivity in the reduction of cyclic ketones by STDEA was similar to that by LTDEA. Quinones, such as p-benzoquinone and anthraquinone, were reduced to the corresponding 1,4-dihydroxycyclohexadienes without evolution of hydrogen. Carboxylic acids and anhydrides were reduced very slowly, whereas acid chlorides were reduced to the corresponding alcohols readily. Esters and epoxides were also reduced readily. Primary carboxamides consumed hydrides for reduction slowly with concurrent hydrogen evolution, but tertiary amides were readily reduced to the corresponding tertiary amines. The rate of reduction of aromatic nitriles was much faster than that of aliphatic nitriles. Nitrogen compounds examined were also reduced slowly. Finally, disulfide, sulfoxide, sulfone, and cyclohexyl tosylate were readily reduced without evolution of hydrogen. In addition to that, the reagent appears to be an excellent partial reducing agent: like LTDEA, STDEA converted ester and primary carboxamides to the corresponding aldehydes in good yields. Furthermore, the reagent reduced aromatic nitriles to the corresponding aldehydes chemoselectively in the presence of aliphatic nitriles. Consequently, STDEA can replace LTDEA effectively, with a higher selectivity, in most organic reductions.

• Bulletin of the Korean Chemical Society
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• 제14권4호
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• pp.469-475
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• 1993

The approximate rates and stoichiometry of the reaction of excess lithium tris(diethylamino)aluminum hydride (LTDEA) with selected organic compounds containing representative functional groups under standardized condition (tetrahydrofuran, 0$^{\circ}C$) were examined in order to define the characteristics of the reagent for selective reductions. The reducing ability of LTDEA was also compared with those of the parent lithium aluminum hydride (LAH) and lithium tris(dibutylamino)aluminum hydride (LTDBA). In general, the reactivity toward organic functionalities is in order of LAH${\gg}$LTDEA${\geq}$LTDBA. LTDEA shows a unique reducing characteristics. Thus, benzyl alcohol and phenol evolve hydrogen slowly. The rate of hydrogen evolution of primary, secondary, and tertiary alcohols is distinctive: 1-hexanol evolves hydrogen completely in 6 h, whereas 3-hexanol evolves hydrogen very slowly. However, 3-ethyl-3-pentanol does not evolve any hydrogen under these reaction conditions. Primary amine, such as n-hexylamine, evolves only 1 equivalent of hydrogen. On the other hand, thiols examined are absolutely inert to this reagent. LTDEA reduces aldehydes, ketones, esters, acid chlorides, and epoxides readily to the corresponding alcohols. Quinones, such as p-benzoquinone and anthraquinone, are reduced to the corresponding diols without hydrogen evolution. However, carboxylic acids, anhydrides, nitriles, and primary amides are reduced slowly, where as tertiary amides are readily reduced. Finally, sulfides and sulfoxides are reduced to thiols and sulfides, respectively, without evolution of hydrogen. In addition to that, the reagent appears to be an excellent partial reducing agent to convert esters, primary carboxamides, and aromatic nitriles into the corresponding aldehydes. Free carboxylic acids are also converted into aldehydes through treatment of acyloxy-9-BBN with this reagent in excellent yields.

• Bulletin of the Korean Chemical Society
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• 제8권4호
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• pp.285-291
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• 1987

The approximate rates, stoichiometries and products of the reaction of potassium triethylborohydride $(KEt_3BH)$ with selected organic compounds containing representative functional groups under the standard condition $(0^{\circ}C,$ THF) were examined in order to explore the reducing characteristics of this reagent as a selective reducing agent. Primary alcohols, phenols and thiols evolve hydrogen rapidly whereas secondary and tertiary alcohols evolve very slowly. n-Hexylamine is inert to this reagent. Aldehydes and ketones are reduced rapidly and quantitatively to the corresponding alcohols. Reduction of noncamphor gives 3% exo- and 97% endo-norboneol. Anthraquinone is cleanly reduced to 9,10-dihydro-9,10-dihydroxyanthracene stage. Carboxylic acids liberate hydrogen rapidly and quantitatively but further reduction does not occur. Anhydrides utilize 2 equiv of hydride to give an equimolar mixture of acid and alcohol. Acid chlorides, esters and lactones are rapidly and quantitatively reduced to the corresponding alcohols. Epoxides are reduced at moderate rates with Markovnikov ring opening to give the more substituted alcohols. Primary amides liberate 1 equiv of hydrogen rapidly. Further reduction of caproamide is slow whereas benzamide is not reduced. Tertiary amides are reduced slowly. Benzonitrile utilizes 2 equiv of hydride in 3 h to go to the amine stage whereas capronitrile takes only 1 equiv. The reaction of nitro compounds undergo rapidly whereas azobenzene and azoxybenzene are reduced slowly. Cyclohexanone oxime rapidly evolves hydrogen without reduction. Phenyl isocyanate utilizes 1 equiv of hydride to proceed to formanilide stage. Pyridine N-oxide and pyridine is reduced rapidly. Disulfides are rapidly reduced to the thiol stage whereas sulfoxide, sulfonic acid are practically inert to this reagent. Sulfones and cyclohexyl tosylate are slowly reduced. Octyl bromide is reduced rapidly but octyl chloride and cyclohexyl bromide are reduced slowly.

• 한국미생물·생명공학회지
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• 제37권2호
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• pp.140-146
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• 2009

Cyclosporin A 분자의 구성 아미노산 가운데 분지 아미노산인 valine, leucine, isoleucine, threonine 등에 대한 첨가 효과를 확인한 결과, L-valine 첨가구는 비첨가구보다 cyclosporin A 역가는 3.7배, cyclosporin A 구성비율은 약 40%로 가장 크게 증가하였다. 그리고 L-valine의 최적 농도는 0.75%로서 비첨가구에 비하여 cyclosporin A 역가는 3배, cyclosporin A 구성비율은 30% 증가하였다. 그러나 L-valine 1% 단독 첨가구보다 L-valine 0.5%, L-leucine 0.5% 혼합구가 cyclosporin A 역가에서는 약 16% 우수하였고, cyclosporin A 구성비율에서는 약 5% 증가하였다. 또한 다양한 유기질소원의 첨가 효과를 확인한 결과, meat peptone인 Bacto-peptone 첨가구는 유기질소원 비첨가구보다 cyclosporin A의 역가는 약 2배, cyclosporin A 구성비율은 약 13% 증가하였고, Bacto-peptone의 최적농도는 1%인 것으로 확인되었다. 그러나 Casiton, Tryptone, NZ-amine 등 우유 유래 유기질소원 첨가구의 경우, 비첨가구보다 cyclosporin A 역가가 오히려 약 10-20% 감소하는 현상을 보여 cyclosporin A 생합성을 억제하는 것으로 확인되었다. 본 연구에서 최적화된 배지 조건에서, 모균주인 T. inflatum ATCC 34921와 UV 조사로 얻어진 4종의 cyclosporin A 고생산 변이주 4종의 생산성을 비교한 결과, 변이주 YHC-004의 cyclosporin A 역가는 3,430 mg/L로 모균주인 ATCC 34921보다 약 7.1배로 증가하였지만, 모균주와 변이주 4종의 cyclosporin A 구성비율은 약 93-94% 범위에서 비슷한 값을 보였다.

• 대한교통학회지
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• 제8권2호
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• pp.119-131
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• 1990

물 또는 습기에 의하여 도로포장 구조물의 아스팔트와 자갈(aggregate)사이의 결합력이 손실되어 아스팔트가 자갈로부터 분리되는 현상 즉 스트리핑(stripping)에 의하여 많은 도로포장이 파괴되고 있다. 이러한 스트리핑 현상을 방지하기 위하여 여러가지 방법이 개발 사용되고 있는데 흔히 스트리핑 방지제(antistripping additive)를 아스팔트에 섞어서 사용하고 있다. 본 연구의 목적은 스트리핑 현상의 원인을 규명하고 이것을 바탕으로 효율적인 스트리핑 방지제의 조건과 사용방법을 제시하는 것이다. 도로포장용 자갈의 물리화학적 성질을 관찰하여 스트리핑과의 관계를 검토한 결과 스트리핑 현상은 아스팔트와 자갈 사이의 전기적 반발력에 의해 일어날 수 있으며, 자갈 표면의 전기화학적 성질이 스트리핑에 중요한 역할을 함을 알 수 있었다. 또한 현재 사용되고 있는 스트리핑 방지제는 IR 분석결과 대부분이 아민(amine) 계통의 양이온 계면활성제 이었다. 이러한 스트리핑 방지제는 0.5에서 1.0%정도 아스팔트에 섞어서 사용하면 스트리핑을 현저히 줄일 수 있으나, 장시간 (약 24 시간 이상) 뜨거운 상태에서 방치하면 그 성능이 감소되는 것을 알 ? 있었다.