• Title/Summary/Keyword: molecular dynamics (MD)

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기체 분리용 고분자 분리막의 분자동력학 연구 (Molecular Dynamics (MD) Study of Polymeric Membranes for Gas Separation)

  • 박치훈;김득주;남상용
    • 멤브레인
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    • 제24권5호
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    • pp.341-349
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    • 2014
  • 분자 동력학(Molecular dynamics; MD) 전산모사 기술은 대상이 되는 입자(일반적으로, 원자)의 위치와 속도를 계산하여, 원자 및 분자들의 다양한 구조 및 동적 특성을 분석하는 데에 있어서 매우 유용한 기술이다. 기체 분리막 연구에 있어서도 MD는 그동안 free volume 분석, conformation search 등과 같은 고분자 구조 분석 및 permeability, diffusivity와 같은 기체 투과 거동을 연구하는 데 널리 사용되어 왔다. 본 총설에서는 기체 분리막 분야에 MD를 적용하는 일반적인 방법론에 대하여 서술하고, 다양한 관련 연구들을 소개하고자 한다.

Molecular Dynamics Simulations of the OSS2 Model for Water and Oxonium Ion Monomers, and Protonated Water Clusters

  • Lee, Song-Hi
    • Bulletin of the Korean Chemical Society
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    • 제23권1호
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    • pp.107-111
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    • 2002
  • The OSS2 (Oj?me-Shavitt-Singer 2)[L. Oj?me et al., J. Chem. Phys. 109, 5547 (1998)] model for the solvated proton in water is examined for $H_2O,\;H_3O^+,\;H_5O_2^+,\;H_7O_3^+,\;and\;H_9O_4^-$ by molecular dynamics (MD) simulations. The equilibrium molecular geometries and energies obtained from MD simulations at 5.0 and 298.15 K agree very well with the optimized calculations.

Molecular Modeling of the Chiral Recognition of Propranolol Enantiomers by a β-Cyclodextrin

  • Kim, Hyun-myung;Jeong, Karp-joo;Lee, Sang-san;Jung, Seun-ho
    • Bulletin of the Korean Chemical Society
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    • 제24권1호
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    • pp.95-98
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    • 2003
  • Enantioselectivity of the propranolol on β-cyclodextrin was simulated by molecular modeling. Monte Carlo (MC) docking and molecular dynamics (MD) simulations were applied to investigate the molecular mechanism of enantioselective difference of both enantiomeric complexes. An energetic analysis of MC docking simulations coupled to the MD simulations successfully explains the experimental elution order of propranolol enantiomers. Molecular dynamics simulations indicate that average energy difference between the enantiomeric complexes, frequently used as a measure of chiral recognition, depends on the length of the simulation time. We found that, only in case of much longer MD simulations, noticeable chiral separation was observed.

Multiscale simulation based on kriging based finite element method

  • Sommanawat, Wichain;Kanok-Nukulchai, Worsak
    • Interaction and multiscale mechanics
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    • 제2권4호
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    • pp.353-374
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    • 2009
  • A new seamless multiscale simulation was developed for coupling the continuum model with its molecular dynamics. Kriging-based Finite Element Method (K-FEM) is employed to model the continuum base of the entire domain, while the molecular dynamics (MD) is confined in a localized domain of interest. In the coupling zone, where the MD domain overlaps the continuum model, the overall Hamiltonian is postulated by contributions from the continuum and the molecular overlays, based on a quartic spline scaling parameter. The displacement compatibility in this coupling zone is then enforced by the Lagrange multiplier technique. A multiple-time-step velocity Verlet algorithm is adopted for its time integration. The validation of the present method is reported through numerical tests of one dimensional atomic lattice. The results reveal that at the continuum/MD interface, the commonly reported spurious waves in the literature are effectively eliminated in this study. In addition, the smoothness of the transition from MD to the continuum can be significantly improved by either increasing the size of the coupling zone or expanding the nodal domain of influence associated with K-FEM.

Intramolecular Hydrogen Bonds in Proteinase Inhibitor Protein, A Molecular Dynamics Simulation Study

  • Chung, Hye-Shin
    • BMB Reports
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    • 제29권4호
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    • pp.380-385
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    • 1996
  • Ovomucoid third domain is a serine proteinase inhibitor protein which consists of 56 amino acid residues. A fifty picosecond molecular dynamics (MD) simulation was carried out for ovomucoid third domain protein with 5 $\AA$ layer of water molecules. A comparison of main chain atoms in the MD averaged structure with the crystal structure showed that most of the backbone structures are maintained during the simulation. Investigation of the intramolecular hydrogen bondings indicated that most of the interactions between main chain atoms were conserved, whereas those between side chains were reorganized for the period of the simulation. Especially, the side chain interactions around the scissile bond of reactive site P1 (Met18) were found to be more extensive for the MD structures. During the simulation, hydrogen bonds were maintained between the side chains of Glu19 and Arg21 as well as those of Thr17 and Glu19. Extensive side chain interactions observed in the MD structures may shed light on the question of why protein proteinase inhibitors are strong inhibitors for proteinases rather than good substrates.

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Molecular Dynamics Simulations of Graphite-Vinylester Nanocomposites and Their Constituents

  • Alkhateb, H.;Al-Ostaz, A.;Cheng, A.H.D.
    • Carbon letters
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    • 제11권4호
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    • pp.316-324
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    • 2010
  • The effects of geometrical parameters on mechanical properties of graphite-vinylester nanocomposites and their constituents (matrix, reinforcement and interface) are studied using molecular dynamics (MD) simulations. Young's modulii of 1.3 TPa and 1.16 TPa are obtained for graphene layer and for graphite layers respectively. Interfacial shear strength resulting from the molecular dynamic (MD) simulations for graphene-vinylester is found to be 256 MPa compared to 126 MPa for graphitevinylester. MD simulations prove that exfoliation improves mechanical properties of graphite nanoplatelet vinylester nanocomposites. Also, the effects of bromination on the mechanical properties of vinylester and interfacial strength of the graphene.brominated vinylester nanocomposites are investigated. MD simulation revealed that, although there is minimal effect of bromination on mechanical properties of pure vinylester, bromination tends to enhance interfacial shear strength between graphite-brominated vinylester/graphene-brominated vinylester in a considerable magnitude.

재료변형의 멀티스케일 해석에 관한 새로운 접근법 (A New Approach for Multi-Scale for Material Deformation)

  • 박준영;김영석
    • 한국소성가공학회:학술대회논문집
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    • 한국소성가공학회 2004년도 춘계학술대회 논문집
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    • pp.62-65
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    • 2004
  • Recently, an approach for nanoscale deformation has been developed that couples the atomistic and continuum approaches using Finite Element Method (FEM) and Molecular Dynamics (MD). However, this approach still has problems to connect two approaches because of the difference of basic assumptions, continuum and atomistic. To solve this problem, an alternative way is developed that connects the quasimolecular dynamics (QMD) and molecular dynamics (MD). In this paper, we suggest the way to make and validate the MD-QMD coupled model.

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연료전지용 수소이온 교환막의 분자동역학 연구 (Molecular Dynamics (MD) Study of Proton Exchange Membranes for Fuel Cells)

  • 박치훈;남상용;홍영택
    • 멤브레인
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    • 제26권5호
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    • pp.329-336
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    • 2016
  • 수소이온 교환막(PEM; Proton Exchange Membrane)은 연료전지 막-전극 복합체(MEA; Membrane-electrode Assembly)를 구성하는 핵심 소재 중 하나로서, 촉매와 함께 연료전지 성능을 결정하는 중요한 역할을 한다. 이러한 수소이온교환막의 성능은 내부에 존재하는 수소이온 전달 통로인 수화 채널의 구조에 큰 영향을 받는 것으로 알려져 있다. 분자 동역학(MD; Molecular Dynamics) 전산모사 기술은 이러한 소재 내부의 분자 및 원자구조를 파악하기 위한 유용한 도구로서, 수소이온 교환막의 구조 및 특성에 관한 많은 관련 연구가 진행되고 있다. 본 총설에서는 분자동역학 전산모사 관련 연구에 대한 동향을 정리하고, 이를 통해 어떤 구조적 특징들을 분석할 수 있는지 제시하여, 수소이온 교환막 연구자들과 분리막 연구자들에게 분자동역학 전산모사 기술의 유용성에 대하여 소개하고자 한다.

분자동역학(MD) 시뮬레이션을 이용한 조암광물의 열팽창 계수 산정 (Calculations of the Thermal Expansion Coefficient for Rock-Forming Minerals Using Molecular Dynamics (MD) Simulation)

  • 서용석;배규진
    • 지질공학
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    • 제11권3호
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    • pp.269-278
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    • 2001
  • MD 시뮬레이션을 이용하여 $\alpha$-quartz, 백운모, 조장석의 열팽창계수를 산정하였다. MD 시뮬레이션에서 가장 중요한 포텐셜 함수로는 부분이온성 두입자간 포텐셜을 이용하였다. 열팽창계수는 격자구조의 온도에 따라 변화를 NPT-ensemble 시뮬레이션을 통하여 계산하여 산정하였으며 그 결과를 실험결과와 비교하였다. 시뮬레이션을 통하여 산정된 열팽창계수는 시험결과와 잘 일치하고 있으며, 유효한 수준의 결과를 보이고 있다.

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나노스케일 재료 변형 거동을 위한 새로운 멀티스케일 접근법 (A New Approach of Multi-Scale Simulation for Investigating Nano-Scale Material Deformation Behavior)

  • 박준영
    • 한국기계가공학회지
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    • 제8권1호
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    • pp.43-47
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    • 2009
  • Recently, an approach for nano-scale material deformation has been developed that couples the atomistic and continuum approaches using Finite Element Method (FEM) and Molecular Dynamics (MD). However, this approach still has problems to connect two approaches because of the difference of basic assumptions, continuum and atomistic modeling. To solve this problem, an alternative way is developed that connects the QuasiMolecular Dynamics (QMD) and molecular dynamics. In this paper, we suggest the way to make and validate the MD-QMD coupled model.

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