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Phase behavior of two-dimensional wa...

Zhu, YinBo.

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Phase behavior of two-dimensional water confined in graphene nanocapillaries

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Phase behavior of two-dimensional water confined in graphene nanocapillaries/ by YinBo Zhu.
作者:	Zhu, YinBo.
出版者:	Singapore :Springer Singapore : : 2020.,
面頁冊數:	xvii, 118 p. :ill. (some col.), digital ;24 cm.
內容註:	Introduction -- Monolayer square-like ice between two graphene sheets -- Superheating of monolayer ice in graphene nanocapillaries -- AB-stacking bilayer square-like ice in graphene nanocapillaries -- AA-stacking bilayer ice in graphene nanocapillaries -- Trilayer ice in graphene nanocapillaries -- Compression limit of 2D water confined in graphene nanocapillaries -- Summary and future work -- Appendix A: Mechanical design on graphene-based materials.
Contained By:	Springer Nature eBook
標題:	Phase transformations (Statistical physics) -
電子資源:	https://doi.org/10.1007/978-981-15-7957-8
ISBN:	9789811579578

Phase behavior of two-dimensional water confined in graphene nanocapillaries
Zhu, YinBo.

Phase behavior of two-dimensional water confined in graphene nanocapillaries[electronic resource] /by YinBo Zhu. - Singapore :Springer Singapore :2020. - xvii, 118 p. :ill. (some col.), digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

Introduction -- Monolayer square-like ice between two graphene sheets -- Superheating of monolayer ice in graphene nanocapillaries -- AB-stacking bilayer square-like ice in graphene nanocapillaries -- AA-stacking bilayer ice in graphene nanocapillaries -- Trilayer ice in graphene nanocapillaries -- Compression limit of 2D water confined in graphene nanocapillaries -- Summary and future work -- Appendix A: Mechanical design on graphene-based materials.

In this book, the authors use molecular dynamics simulations to conduct a comprehensive study of the compression/superheating limit and phase transition of 2D (monolayer, bilayer, and trilayer) water/ice constrained in graphene nanocapillaries. When subjected to nanoscale confinement and under ultrahigh pressure, water and ice behave quite differently than their bulk counterparts, partly because the van der Waals pressure can spark a water-to-ice transformation, known as the metastability limit of two-dimensional (2D) liquids. From a mechanical standpoint, this liquid-to-solid transformation characterizes the compression limit (or metastability limit) of 2D water. The findings presented here could help us to better understand the phase behavior of 2D confined water/ice.

ISBN: 9789811579578

Standard No.: 10.1007/978-981-15-7957-8doiSubjects--Topical Terms:

536285
Phase transformations (Statistical physics)

LC Class. No.: QC175.3

Dewey Class. No.: 530.414

Phase behavior of two-dimensional water confined in graphene nanocapillaries
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505 0 $a Introduction -- Monolayer square-like ice between two graphene sheets -- Superheating of monolayer ice in graphene nanocapillaries -- AB-stacking bilayer square-like ice in graphene nanocapillaries -- AA-stacking bilayer ice in graphene nanocapillaries -- Trilayer ice in graphene nanocapillaries -- Compression limit of 2D water confined in graphene nanocapillaries -- Summary and future work -- Appendix A: Mechanical design on graphene-based materials.
520 $a In this book, the authors use molecular dynamics simulations to conduct a comprehensive study of the compression/superheating limit and phase transition of 2D (monolayer, bilayer, and trilayer) water/ice constrained in graphene nanocapillaries. When subjected to nanoscale confinement and under ultrahigh pressure, water and ice behave quite differently than their bulk counterparts, partly because the van der Waals pressure can spark a water-to-ice transformation, known as the metastability limit of two-dimensional (2D) liquids. From a mechanical standpoint, this liquid-to-solid transformation characterizes the compression limit (or metastability limit) of 2D water. The findings presented here could help us to better understand the phase behavior of 2D confined water/ice.
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