Extraordinarily skewed solid-liquid coexistence for tensile fluid in nanopores and its origin: a molecular dynamics study

机译：纳米孔中的拉伸液相同偏斜的固体共存及其起源：分子动力学研究

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The effect of equilibrium vapor-phase presusre onto freezing in nanopore is examined employing a molecular dynamics (MD) technique in a unit cell with imaginary gas phase. The MD simulations showed liquid-solid phase transitions, at a constant temperature, with the variation in the equilibrium vapor-phase pressure below saturated one Thus found solid-liquid coexistence line exhibited extraordinarily skewed shape, which implies the importance of the tensile effect on freezing in nanopores. The capillary effect on shift in freezing point was successfully described by a model based on the concept of pressure felt by the pore fluid.

机译：检查平衡气相预测在纳米孔中冻结的效果在具有假想气相的单位细胞中采用分子动力学（MD）技术。 MD模拟显示在恒定温度下的液体固相转变，随着饱和液体的平衡气相压力的变化，因此发现固体共存线表现出极其倾斜的形状，这意味着拉伸效应对冷冻的重要性在纳米孔中。基于孔隙液毡的概念，模型成功地描述了对冰点换档的毛细血管效应。

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《Pacific Basin conference on adsorption science and technology》|2000年||共5页
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M. Miyahara; H. Kanda; M. Shibao; K. Higashitani;
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中图分类物理化学生物学;
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