• 제목/요약/키워드: Surface-molecule interaction

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Si(001) 표면과 acetone 분자의 상호작용에 대한 이론적 연구 (Interaction of acetone molecule on Si(001) surface: A theoretical study)

  • 백승빈;김대희;김영철
    • 반도체디스플레이기술학회지
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    • 제7권3호
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    • pp.35-39
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    • 2008
  • We study the interaction of acetone molecule $[(CH_3)_2CO]$ on Si(001) surface using density functional theory. An acetone molecule is adsorbed on a Si atom of the Si dimer of the Si(001) surface. The adsorption of the acetone molecule on the Si atom at lower height between the two Si atoms of the dimer is more favorable than that on the Si atoms at upper height. Then we calculate an energy variation of dissociation and four-membered ring structures of the acetone molecule adsorbed on the Si surface. Total energy difference between the two structures is about 0.05 eV, indicating that the two structures are almost equally stable. Energy barrier exists when a hydrogen atom is dissociated and adsorbed on the other Si atom of the dimer, while energy barrier does not exist when the adsorbed acetone molecule changes to four-membered ring structure, except for the rotation of the acetone molecule along z-direction. Therefore, four-membered ring structure is kinetically more favorable than the dissociation structure when the acetone molecule is adsorbed on the Si(001) surface.

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물 분자의 해리에 의한 Si (001)-c(4×2) 표면에서의 수산화기의 균일한 분포 (Regular Distribution of -OH Fragments on a Si (001)-c(4×2) Surface by Dissociation of Water Molecules)

  • 이수경;오현철;김대희;정용찬;백승빈;김영철
    • 한국재료학회지
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    • 제20권9호
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    • pp.457-462
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    • 2010
  • Adsorption of a water molecule on a Si (001) surface and its dissociation were studied using density functional theory to study the distribution of -OH fragments on the Si surface. The Si (001) surface was composed of Si dimers, which buckle in a zigzag pattern below the order-disorder transition temperature to reduce the surface energy. When a water molecule approached the Si surface, the O atom of the water molecule favored the down-buckled Si atom, and the H atom of the water molecule favored the up-buckled Si atom. This is explained by the attractions between the negatively charged O of the water and the positively charged down-buckled Si atom and between the positively charged H of the water and the negatively charged up-buckled Si atom. Following the adsorption of the first water molecule on the surface, a second water molecule adsorbed on either the inter-dimer or intra-dimer site of the Si dimer. The dipole-dipole interaction of the two adsorbed water molecules led to the formation of the water dimer, and the dissociation of the water molecules occurred easily below the order-disorder transition temperature. Therefore, the 1/2 monolayer of -OH on the water-terminated Si (001) surface shows a regular distribution. The results shed light on the atomic layer deposition process of alternate gate dielectric materials, such as $HfO_2$.

AgI 결정면에 물의 흡착에 관한 이론적 고찰 (Interaction of Water with Silver Iodide)

  • 백영현
    • 한국표면공학회지
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    • 제7권1호
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    • pp.5-12
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    • 1974
  • The interaction energy of water molecule over the surfaces of basal planes of silver iodide has been calculated , assuming 1-4-6--12 type potentials between the gas molecule and lattice ions in the silver iodide lattice. The heat of adsorption ranges from 12.25 to 12.75 kcal /mole at low coverage which is around the level of the latent heat of sublimaton of water.

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MO Calculation for the Dissociative Adsorption of Oxygen Molecule on Ni44(111) Model Surface

  • Lee Kwang Soon;Koo Hyun Joo;Ahn Woon Sun
    • Bulletin of the Korean Chemical Society
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    • 제15권12호
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    • pp.1093-1097
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    • 1994
  • The interaction of oxygen molecule with Ni44(111) model surface to which the molecule approaches is studied by calculating the relevant DOS and COOP with the tight-binding EHT method. It is found that the dissociative adsorption of oxygen takes place as a result of electron transfer from the Ni d${\pi}$ orbital to the antibonding 1${\pi}_g$ orbital of the oxygen molecule. This finding is noteworthy to contrast with the case of Ni(100) surface in which the electron transfer takes place from the Ni d${\delta}$ orbital of the nickel surface.

멀티 리간드의 특이적 상호작용이 입자-세포간 상호작용에 미치는 영향 (Effect of Specific Interaction of Multi-Ligands on the Specific Interaction between Particle and Cell)

  • 윤정현;이세영
    • 대한의용생체공학회:의공학회지
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    • 제43권2호
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    • pp.94-101
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    • 2022
  • Recent advancement of micro/nano technology enables the development of diverse micro/nano particle-based delivery systems. Due to the multi-functionality and engineerability, particle-based delivery system are expected to be a promising method for delivery to the target cell. Since the particle-based delivery system should be delivered to the various kinds of target cell, including the cardiovascular system, cancer cell etc., it is frequently decorated with multiple kinds of targeting molecule(s) to induce specific interaction to the target cell. The surface decorated molecules interact with the cell surface expressed molecule(s) to specifically form a firm adhesion. Thus, in this study, the probability of adhesion is estimated to predict the possibility to form a firm adhesion for the multi-ligand decorated particle-based delivery system.

Atomic Study of Oxidation of Si(001) surface by MD Simulation

  • Pamungkas, Mauludi Ariesto;Kim, Byung-Hyun;Joe, Min-Woong;Lee, Kwang-Ryeol
    • 한국진공학회:학술대회논문집
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    • 한국진공학회 2009년도 제38회 동계학술대회 초록집
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    • pp.360-360
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    • 2010
  • Very initial stage of oxidation process of Si (001) surface was investigated using large scale molecular dynamics simulation. Reactive force field potential was used for the simulation owing to its ability to handle charge variation associated with the oxidation reaction. To know the detail mechanism of both adsorption and desorption of water molecule (for simulating wet oxidation), oxygen molecule (for dry oxidation) and their atom constituents, interaction of one molecule with Si surface was carefully observed. The simulation is then continued with many water and oxygen molecules to understand the kinetics of oxide growth. The results show that possibilities of desorption and adsorption depend strongly on initial atomic configuration as well as temperature. We observed a tendency that H atoms come relatively into deeper surface or otherwise quickly desorbed away from the silicon surface. On the other hand, most oxygen atoms are bonded with first layer of silicon surface. We also noticed that charge transfer is only occur in nearest neighbor regime which has been pointed out by DFT calculation. Atomic structure of the interface between the oxide and Si substrate was characterized in atomic scale.

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Determination of Monoclonal Antibodies Capable of Recognizing the Native Protein Using Surface Plasmon Resonance

  • Kim, Deok-Ryong
    • BMB Reports
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    • 제34권5호
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    • pp.452-456
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    • 2001
  • Surface plasmon resonance has been used for a biospecific interaction analysis between two macromolecules in real time. Determination of an antibody that is capable of specifically interacting with the native form of antigen is very useful for many biological and medical applications. Twenty monoclonal antibodies against the $\alpha$ subunit of E. coli DNA polymerase III were screened for specifically recognizing the native form of protein using surface plasmon resonance. Only four monoclonal antibodies among them specifically recognized the native $\alpha$ protein, although all of the antibodies were able to specifically interact with the denatured $\alpha$ subunit. These antibodies failed to interfere with the interaction between the $\tau$ and $\alpha$ subunits that were required for dimerization of the two polymerases at the DNA replication fork. This real-time analysis using surface plasmon resonance provides an easy method to screen antibodies that are capable of binding to the native form of the antigen molecule and determine the biological interaction between the two molecules.

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Study of Effect of Adsorbate-Adsorbent Interaction in Multilylayer Physical Adsorption of Gases on Solids

  • Park, Sung-Ju;Lee, Jo W.;Pak, Hyung-Suk;Chang, Sei-Hun
    • Bulletin of the Korean Chemical Society
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    • 제2권2호
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    • pp.56-59
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    • 1981
  • In this paper a further generalization of the theory of multilayer physical adsorption previously developed by the authors is attempted so that the effect of vertical interactions between adsorbent and adsorbate can be explicitly taken into account. In this attempt we have to discard the previously adopted assumption that the molecules in the second layer or above are all in the same physical state. In order to estimate the effect of vertical interactions on the adsorption isotherm the interaction energy between an adsorbed molecule and the adsorbent surface is assumd to vary as $r^{-3}$ where r is the distance that the molecule under consideration is separated from the adsorbent surface. Resulting adsorption isotherm is applied to interpret the adsorption data of tetramethylsilane vapor on iron film and good agreements between observed and calculated values are obtained over wide range of pressure.

An Extended $H\ddot{u}ckel$ Calculation on the Interaction of 1,3,5-Trithian with Ag(111) Surface

  • Park, Sang-Hyun;Kim, Ho-Jing
    • Bulletin of the Korean Chemical Society
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    • 제14권2호
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    • pp.244-250
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    • 1993
  • The interaction of 1,3,5-trithian molecule with Ag(111) surface is studied employing Extended Huckel method. The Ag(111) surface is modeled by the three layer metal clusters composed of 43 Ag atoms. We assume that the 1,3,5-trithian is lying flat on Ag(111) surface in the chair conformation. The geometry of 1,3,5-trithian itself is assumed to be the same as in the gas phase, which is obtained through the AM1 SCF-MO calculation with full geometry optimization. The calculation for 3-fold site adsorption leads to the weakening of C-S bond, which is compatible with the observed 5 cm$^{-1}$ decrease of the C-S stretching frequency upon surface adsorption, while the on-top site adsorption leads to strengthening of C-S bond. The major component of the C-S bond of trithian is S $3p_{pi}\;(S\;3p_x+S\;3p_y)$ and therefore only the 3-fold site adsorption causes the weakening of this bond. In addition, it is found that the trithian molecule binds to the 3-fold site more strongly.

Identification of Amino Acid Residues Involved in the Interaction between Measles Virus Haemagglutin (MVH) and Its Human Cell Receptor(Signaling Lymphocyte Activation Molecule, SLAM)

  • Xu, Qin;Zhang, Peng;Hu, Chunling;Liu, Xin;Qi, Yipeng;Liu, Yingle
    • BMB Reports
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    • 제39권4호
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    • pp.406-411
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    • 2006
  • Signaling lymphocyte activation molecule (SLAM; also known as CD150) is a newly identified cellular receptor for measles virus (MV). The interaction between MV Haemagglutin (MVH) and SLAM is an initial step for MV entry. We have identified several novel SLAM binding sites at residues S429, T436 and H437 of MVH protein and MVH mutants in these residues dramatically decrease the ability to interaction with the cell surface SLAM and fail to co-precipitation with SLAM in vivo as well as malfunction in syncytium formation. At the same time, K58, S59 and H61 of SLAM was also identified to be critical for MVH and SLAM binding. Further, these residues may be useful targets for the development of measles therapy.