• Bulletin of the Korean Chemical Society
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• 제12권3호
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• pp.265-270
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• 1991

Theoretical calculations on the stabilization energies of framework atoms in hydrolyses Co(Ⅱ )-exchanged zeolite A were made using some potential energy functions and optimization program. The protons which are produced by hydrolysis of $[Co(H_2O)_n]^{2+}$ ion in large cavity showed a tendency to attack the framework oxygen atom O(1) preferentially, and the oxygen atom O(4) within OH- ion was coordinated at Al atom. The weakness of bonds between T(Si, Al) and oxygen by attack of proton and too large coordination number around small aluminum atom will make the framework of Co(Ⅱ)-exchanged zeolite A more unstable. The stabilization energy of $Co_4Na_4$-A framework (- 361.57 kcal/mol) was less than that of thermally stable zeolite A($Na_{12-}$A: - 419.68 kcal/mol) and greater than that of extremely unstable Ba(Ⅱ)-exchanged zeolite A($Ba_{6-}$A: - 324.01 kcal/mol). All the data of powder X-ray diffraction, infrared and Raman spectroscopy of Co(Ⅱ)-exchanged zeolite A showed the evidence of instability of its framework in agreement with the theoretical calculation. Three different groups of water molecules are found in hydrated Co(Ⅱ )-exchanged zeolite A; W(Ⅰ) group of water molecules having only hydrogen-bonds, W(Ⅱ) group water coordinated to $Na^+$ ion, ans W(Ⅲ) group water coordinated to Co(Ⅱ) ion. The averaged interaction energy of each water group shows the decreasing order of W(Ⅲ)>W(Ⅱ)>W(Ⅰ).

• Current Applied Physics
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• 제18권12호
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• pp.1546-1552
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• 2018

The polymer nanocomposite as a gate dielectric film was prepared via sol-gel method. The formation of crosslinked structure among nanofillers and polymer matrix was proved by Fourier transform infrared spectroscopy (FT-IR). Differential thermal analysis (DTA) results showed significant increase in the thermal stability of the nanocomposite with respect to that of pure polymer. The nanocomposite films deposited on the p- and n-type Si substrates formed very smooth surface with rms roughness of 0.045 and 0.058 nm respectively. Deconvoluted $Si_{2s}$ spectra revealed the domination of the Si-OH hydrogen bonds and Si-O-Si covalence bonds in the structure of the nanocomposite film deposited on the p- and n-type Si semiconductor layers respectively. The fabricated n-channel field-effect-transistor (FET) showed the low threshold voltage and leakage currents because of the stronger connection between the nanocomposite and n-type Si substrate. Whereas, dominated hydroxyl groups in the nanocomposite dielectric film deposited on the p-type Si substrate increased trap states in the interface, led to the drop of FET operation.

• 한국육종학회지
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• 제43권5호
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• pp.479-489
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• 2011

Gluten is the main functional component of wheat, and is the main source of the viscoelastic properties in a dough. One of the gluten group is glutenin, which is composed of high molecular weight (HMW) and low molecular weight (LMW) subunits. The HMW glutenin subunits (HMW-GS) have been shown to play a crucial role in determining the processing properties of the grain. They are encoded by the Glu-1 loci located on the long arms of homeologous group one chromosomes, with each locus comprising two genes encoding x- and y-type subunits. The presence of certain HMW subunits is positively correlated with good bread-making quality. The highly conserved N- and C- terminal contaning cystein residues which form interand intra-chain disulphide bonds. This inter chain disulphide bonds stabilize the glutenin polymers. In contrast, the repetitive domains that comprise the central part of the HMW-GS are responsible for the elastic properties due to extensive arrays of interchain hydrogen bonds. In this review, we discuss HMW-GS, HMW-GS structure and gluten elasticity, relationship between HMW-GS and bread wheat quality and genetic engineering of the HMW-GS.

• Journal of Microbiology and Biotechnology
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• 제32권12호
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• pp.1561-1572
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• 2022

Plastic pollution has been recognized as a serious environmental problem, and microbial degradation of plastics is a potential, environmentally friendly solution to this. Here, we analyzed and compared microbial communities on waste plastic films (WPFs) buried for long periods at four landfill sites with those in nearby soils to identify microbes with the potential to degrade plastics. Fourier-transform infrared spectroscopy spectra of these WPFs showed that most were polyethylene and had signs of oxidation, such as carbon-carbon double bonds, carbon-oxygen single bonds, or hydrogen-oxygen single bonds, but the presence of carbonyl groups was rare. The species richness and diversity of the bacterial and fungal communities on the films were generally lower than those in nearby soils. Principal coordinate analysis of the bacterial and fungal communities showed that their overall structures were determined by their geographical locations; however, the microbial communities on the films were generally different from those in the soils. For the pulled data from the four landfill sites, the relative abundances of Bradyrhizobiaceae, Pseudarthrobacter, Myxococcales, Sphingomonas, and Spartobacteria were higher on films than in soils at the bacterial genus level. At the species level, operational taxonomic units classified as Bradyrhizobiaceae and Pseudarthrobacter in bacteria and Mortierella in fungi were enriched on the films. PICRUSt analysis showed that the predicted functions related to amino acid and carbohydrate metabolism and xenobiotic degradation were more abundant on films than in soils. These results suggest that specific microbial groups were enriched on the WPFs and may be involved in plastic degradation.

• 접착 및 계면
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• 제15권4호
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• pp.161-168
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• 2014

페놀과 피리딘 간의 단일 수소결합을 이용하여 새로운 형태의 자기 집합된 원반형 액정을 제조하고 그 액정 특성을 조사하였다. 원반형 구조 설계를 위해 phloroglucinol을 중심부 분자로, 체계적으로 알킬사슬 길이를 변화시킨 trans-4-alkoxy-4'-stilbazole을 주변 물질로 사용하였다. 적외선 분광 분석을 통해 중심부 분자와 주변 물질 사이의 분자간 수소결합이 성공적으로 형성됨을 확인하였고, 또한 수소결합의 안정성이 분자 정렬에 의해 크게 영향을 받음을 확인하였다. 자기 집합된 원반형 액정 복합체는 원반형 메소겐 주위의 알킬 사슬 길이에 따라 다른 액정상들을 나타내었다. 긴 알킬사슬을 함유하는 액정 복합체의 경우 육방형 컬럼상이 나타났으며, 상대적으로 짧은 사슬을 갖는 다른 액정 복합체에서는 네마틱 컬럼상이 형성되었다. 이는 자기 집합된 원반형 액정 복합체의 액정상 구조가 원반형 핵 단위 주변의 알킬사슬 길이에 의해 크게 영향을 받음을 의미하였다.

• 대한화학회지
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• 제48권3호
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• pp.229-235
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• 2004

고에너지 화합물의 수소결합 현상을 연구하기 위하여 nitromethane 단량체 (monomer)와 이합체 (dimer)에 대하여 Gaussian-98 프로그램을 사용하여 restricted BLYP/6-311++G(d,p), B3LYP/6-311++G(d,p), MP2/6-311++G 계산을 수행하였다 . 이러한 이론적 연구를 통하여 nitromethane 단량체 및 이합체의 구조와 수소결합 및 진동스펙트럼을 구하였다 . 본 연구의 결과 nitromethane 상온에서 분자 간에 두 개의 수소결합을 이루며 이합체를 형성하는 것이 유리하고 , 이 이합체는 단량체보다 BLYP, B3LYP, MP2 level 계산에서 각각 약 15.2, 19.4, 32.6 kJ/mol 만큼 안정화됨을 알 수 있었다.

• 대한화학회지
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• 제55권2호
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• pp.199-203
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• 2011

일차원 수소결합형 배위고분자 $[Cu^{II}(C_{13}H_{17}N_3OBr)(C_8H_5O_4)]{\cdot}2H_2O.CH_3OH$을 합성하여 단결정 X-선 회절 연구로 특성을 규명하였다. 단량체 단위는 사각평면의 중심 $Cu^{II}$를 갖고 있다. 네개의 배위자리 중 세자리는 $N_2O$-주개 세트를 갖는 Schiff 염기형 리간드 (4-bromo-2-[(2-piperazin-1-yl-ethylimino)-methyl]-phenol)가 차지하고, 네 번째 자리는 옆에 있는 테레프탈레이트 단위의 산소 원자가 차지한다. 두개의 인접한 중성분자는 분자간 N-H---O 및 O-H---N 수소결합에 의해 연결되어 이합체 쌍을 형성한다. 각 이합체 쌍은 불연속적인 물 및 메탄올 분자에 의해 수소결합으로 다시 연결되어 일차원 초분자 네트워크를 형성한다.

• 방사선산업학회지
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• 제6권1호
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• pp.89-94
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• 2012

Three-dimensional network hydrogels were prepared by ${\gamma}$-irradiation of aqueous solutions of poly(vinyl alcohol) (PVA) and glycerol (Gly). Oven-drying was used to measure the gel fraction (G), hydration (H) or swelling behavior (S) of the prepared hydrogels. This study made a hypothesis that hydrogen bonds due to addition of glycerol and change of dry states such as freeze-drying (FD), room-drying (RD) and oven-drying (OD) acts on the G, H, and S. Interesting results on the hydrogen bonding effect in the prepared hydrogels are monitored at different drying conditions. The FD samples have a higher G values with increase in glycerol content as compared with the OD and RD samples. The formation of strong hydrogen bonding network among Gly molecules and hydrogel matrix was considered as the main driving force, resulting in the changes in the G, H, and S of the hydrogels under different drying conditions.

• 대한화학회지
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• 제29권1호
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• pp.31-37
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• 1985

N-아세틸-ㅣ-페닐 알라닐-ㅣ-페닐 알라닌 메틸 에스테르(APhPhMe)와 N-아세틸-ㅣ-페닐 알라닌메틸에스테르(APhMe) 그리고 N-아세틸-ㅣ- 페닐알라닐-l-알라닌메틸에스테르(APhAlMe)를 모델화합물로 사용하여 단백질 변성을 연구하였다. APhPhMe는 압력이 증가하면 물에서의 용해도가 증가하였고 APhMe는 반대로 크게 감소하였지만 APhAlMe는 측정한 온도에서 거의 변화가 없었다. APhPhMe의 부피 변화는 20, 30, 40, 50$^{\circ}C$에서 각각 -0.9, -1.47, -1.09, -1.52 ml/mole이었고 APhMe는 20, 30, 40$^{\circ}C$에서 +6.0, +7.0, +7.5 ml/mole이었지만 APhAlMe는 세 온도 모두 0에 가까왔다. 이러한 결과를 소수성 상호작용과 펩티드 결합에 의한 수소결합으로 설명하였다. 즉 펩티드 결합만 존재하거나, 비교적 큰 소수성 작용기 1개와 펩티드 결합 1개가 동시에 있을 경우에는 펩티드 결합만 존재하거나, 비교적 큰 소수성 작용기 1개와 펩티드 결합 1개가 동시에 있을 경우에는 펩티드 결합사이의 수소결합이 소수성 상호 작용보다 우세하였고, 펩티드 결합과 소수성 작용기가 동시에 1개씩 증가할때는 소수성 상호작용이 우세한 것 같다.

• 대한화학회지
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• 제19권4호
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• pp.233-239
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• 1975

세개의 二重結合에 衣하여 conjugate된 비대칭화합물 cis-2-bitenedialdioxime의 두 oxime group의 configuration을 溶媒, 溫度 및 濃度의 影響에 대한 NMR 硏究로서 決定하였다. 溶液狀態에서의 이 化合物은 $-35^{circ}$∼$-95^{\circ}C$의 溫度條件下에서는 항상 "syn-syn" configuration으로 存在함을 알았다. 또한 이 化合物의 oxime group과 溶媒사이의 水素結合의 相對的强度와 溫度 및 濃度에 의 피리딘의 考察하고 몇가지 水素結合의 모델을 提示하였다. 特히 피리딘溶媒 속에서는 水素結合은 한 영향을 窒素가 갖고 있는 非共有電子雙에 衣해서 일어나지 않고, oxime 의 hydroxyl proton과 피리딘의 $\pi$軌道函數 사이에 形成되는 $\pi$-착물의 結果임을 알았다.