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Molecular dynamics simulation of a single polymer in hydrophilic nano-slits 被引量:2

Molecular dynamics simulation of a single polymer in hydrophilic nano-slits
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摘要 The behavior of a single polyethylene polymer in aqueous solution confined between two hydrophilic walls is studied with molecular dynamics (MD) simulations. The thickness of the nano-slit ranges from 1.26 to 3.15 nm, which is comparative to the polymer dimension. A monotonic transition from 3D- to 2D-like configurations is observed as the distance between the two walls narrows. Monomers are compressed into several layers and the preferred bond orientations alternate between parallel and normal to the walls accordingly. The diffusivity in the direction parallel to the wall is always larger than the one perpendicular to it. Calculation of the entropy and enthalpy changes during the folding of the polymer chain alone cannot explain the spontaneous process. The corresponding increase in water entropy due to volume expansion may be large enough to result in the overall free energy decrease. The behavior of a single polyethylene polymer in aqueous solution confined between two hydrophilic walls is studied with molecular dynamics (MD) simulations. The thickness of the nano-slit ranges from 1.26 to 3.15 nm, which is comparative to the polymer dimension. A monotonic transition from 3D- to 2D-like configurations is observed as the distance between the two walls narrows. Monomers are compressed into several layers and the preferred bond orientations alternate between parallel and normal to the walls accordingly. The diffusivity in the direction parallel to the wall is always larger than the one perpendicular to it. Calculation of the entropy and enthalpy changes during the folding of the polymer chain alone cannot explain the spontaneous process. The corresponding increase in water entropy due to volume expansion may be large enough to result in the overall free energy decrease.
作者 REN Ying GAO Jian GE Wei LI JingHai HU GuoHua
机构地区 State Key Laboratory of Multiphase Complex System Graduate University of the Chinese Academy of Sciences Laboratory of Chemical Engineering Sciences
出处 《Chinese Science Bulletin》 SCIE EI CAS 2008年第17期2599-2606,共8页
基金 the National Natural Science Foundation of China (Grant Nos. 20336040, 20490201 and 20221603) Chinese Academy of Sciences (Grant Nos. KJCX-SW-L01 and KJCX3-SYW-S01) Research Fund of Key Lab for Nanomaterials, Ministry of Education of China (Grant No. 2006-1)
关键词 聚乙烯聚合体 分子动力学模拟 亲水性 纳米裂缝 molecular dynamics simulation, confined, polymer
分类号 O632.12 [理学—高分子化学]
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参考文献10

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同被引文献13

  • 1Juan P, Ma Hongbo, Graham D M, et al. Cross-Stream Line Migration in Confined Theory and Simulation [J]. (12): 123101 Flowing Polymer Solutions: Physics of Fluids, 2006, 18.
  • 2Chen Y L, Graham M D, Pablo J J, et al. DNA Molecules in Microfluidic Oscillatory Flow [J]. Macro- molecules, 2005, 38:6680-6687.
  • 3Cordeiro C E. Confined Polymer Chains in Poor Solvent [J]. Phys Chem Solids, 1999, 60:1645 1648.
  • 4Ma H, Graham M D. Theory of Shear-Induced Migration in Dilute Polymer Solutions Near Solid Boundaries [J]. Physics of Fluilds, 2005,17:083103.
  • 5Khare R, Graham M D, Juan J. Cross-Stream Migration of Flexible Molecules in a Nanochannel [J]. Physical Re- view Letters, 2006, 224505.
  • 6Usta O B, AnthonyJ C, Jason E. Lattiee-Boltzmann Sim- ulations of the Dynamics of Polymer Solutions in Periodic and Confined Geometries [J]. 3 Chem Phys, 2005, 122(9): 094902.
  • 7Rapaport D C. The Art of Molecular Dynamics Simula- tion [M]. Second Edition. New York: Cambridge Univer- sity Press, 2004:251 254.
  • 8Freund J B. The Atomic Detail of a Wetting or De- Wetting Flow [J]. Physics of Fluids, 2003, 15(5): 33-36.
  • 9Fu Cuiliu, Ouyang Wenze, Lijia An, et al. Influence of Molecular Topology on the Static and Dynamic Proper- ties of a Single Polymer Chain in Solution [J]. J Chem Phys, 2007, 127:044903.
  • 10何彦东,尤莉艳,王晓琳,吕中元,李泽生.高分子在受限稀溶液中的结构和动力学性质[J].高等学校化学学报,2009,30(1):191-195. 被引量:3

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Chinese Science Bulletin
2008年 第17期

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