Lennard-Jones fluids confined in nanoscopic slits: Evidence for reentrant filling transitions

L. Salamacha; A. Patrykiejew; S. Sokolowski; K. Binder

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Lennard-Jones fluids confined in nanoscopic slits: Evidence for reentrant filling transitions

机译：Lennard-Jones流体被限制在纳米缝隙中：折返填充过渡的证据

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By using grand canonical and canonical ensemble Monte Carlo simulations, the structure and phase behavior of a Lennard-Jones (LJ) fluid confined between the parallel (100) planes of a face-centered cubic crystal are studied. Slit pores with a width which allows three adsorbate layers to form are used. It is shown that the filled pore consists of three commensurate layers over a wide range of the surface potential strength, while the pore-filling mechanism and the topology of the phase diagram change when the strength of this fluid-wall potential is varied. Condensation may occur in one step or via two layering-like transitions. The structure of monolayer films depends on the strength and corrugation of the surface potential, and the condensation of the middle layer may induce a reentrant first-order transition.

机译：通过使用大正则和正则合奏蒙特卡洛模拟，研究了被限制在面心立方晶体的平行（100）平面之间的Lennard-Jones（LJ）流体的结构和相行为。使用具有允许形成三个吸附物层的宽度的狭缝孔。结果表明，充填的孔隙由三层相当的层构成，覆盖层的表面电位强度很大，而当流体壁电位的强度发生变化时，孔隙的充填机理和相图的拓扑结构也会发生变化。冷凝可以一步发生，也可以通过两个类似分层的跃迁发生。单层膜的结构取决于表面电势的强度和波纹，并且中间层的凝结可能会引起折返的一阶跃迁。

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《The European physical journal, E. Soft matter》 |2004年第3期|共5页
作者
L. Salamacha; A. Patrykiejew; S. Sokolowski; K. Binder;
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正文语种 eng
中图分类物理学;
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structural transitions in nanoscale materials; order-disorder transformations; statistical mechanics of model systems; phase transitions and critical phenomena;

机译：纳米材料的结构转变;无序转变;模型系统的统计力学;相变和临界现象;

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2. Lennard-Jones fluids confined in nanoscopic slits: Evidence for reentrant filling transitions [J] . L. Salamacha, A. Patrykiejew, S. Sokolowski, The European physical journal, E. Soft matter . 2004,第3期

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Lennard-Jones fluids confined in nanoscopic slits: Evidence for reentrant filling transitions

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