Related references
Note: Only part of the references are listed.Coarse-grained ions without charges: Reproducing the solvation structure of NaCl in water using short-ranged potentials
Robert C. DeMille et al.
JOURNAL OF CHEMICAL PHYSICS (2009)
Growing correlation length in supercooled water
Emily B. Moore et al.
JOURNAL OF CHEMICAL PHYSICS (2009)
Effect of Temperature on the Structure and Phase Behavior of Water Confined by Hydrophobic, Hydrophilic, and Heterogeneous Surfaces
Nicolas Giovambattista et al.
JOURNAL OF PHYSICAL CHEMISTRY B (2009)
Thermodynamic Stability and Growth of Guest-Free Clathrate Hydrates: A Low-Density Crystal Phase of Water
Liam C. Jacobson et al.
JOURNAL OF PHYSICAL CHEMISTRY B (2009)
Water Modeled As an Intermediate Element between Carbon and Silicon
Valeria Molinero et al.
JOURNAL OF PHYSICAL CHEMISTRY B (2009)
Water Nucleation on Gold: Existence of a Unique Double Bilayer
D. Stacchiola et al.
JOURNAL OF PHYSICAL CHEMISTRY C (2009)
No Confinement Needed: Observation of a Metastable Hydrophobic Wetting Two-Layer Ice on Graphene
Greg A. Kimmel et al.
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2009)
Phase Transitions Induced by Nanoconfinement in Liquid Water
Nicolas Giovambattista et al.
PHYSICAL REVIEW LETTERS (2009)
Two- and One-Dimensional Honeycomb Structures of Silicon and Germanium
S. Cahangirov et al.
PHYSICAL REVIEW LETTERS (2009)
Melting and freezing of water in cylindrical silica nanopores
S. Jaehnert et al.
PHYSICAL CHEMISTRY CHEMICAL PHYSICS (2008)
Formation of single- and double-layer silicon in slit pores
Tetsuya Morishita et al.
PHYSICAL REVIEW B (2008)
Experimental evidence for ice formation at room temperature
K. B. Jinesh et al.
PHYSICAL REVIEW LETTERS (2008)
Effect of water-wall interaction potential on the properties of nanoconfined water
Pradeep Kumar et al.
PHYSICAL REVIEW E (2007)
The melting point of ice Ih for common water models calculated from direct coexistence of the solid-liquid interface
RG Fernández et al.
JOURNAL OF CHEMICAL PHYSICS (2006)
Effect of pressure on the phase behavior and structure of water confined between nanoscale hydrophobic and hydrophilic plates
N Giovambattista et al.
PHYSICAL REVIEW E (2006)
Can simple models describe the phase diagram of water?
C Vega et al.
JOURNAL OF PHYSICS-CONDENSED MATTER (2005)
Thermodynamics, structure, and dynamics of water confined between hydrophobic plates
P Kumar et al.
PHYSICAL REVIEW E (2005)
Melting temperature of ice Ih calculated from coexisting solid-liquid phases -: art. no. 036101
J Wang et al.
JOURNAL OF CHEMICAL PHYSICS (2005)
The melting temperature of the most common models of water
C Vega et al.
JOURNAL OF CHEMICAL PHYSICS (2005)
Phase diagram of water between hydrophobic surfaces
K Koga et al.
JOURNAL OF CHEMICAL PHYSICS (2005)
Ordered water inside carbon nanotubes: formation of pentagonal to octagonal ice-nanotubes
Y Maniwa et al.
CHEMICAL PHYSICS LETTERS (2005)
The melting lines of model silicon calculated from coexisting solid-liquid phases
S Yoo et al.
JOURNAL OF CHEMICAL PHYSICS (2004)
Formation of quasi two-dimensional bilayer ice in hydrophobic slits: A possible candidate for ice XIII?
J Bai et al.
MOLECULAR SIMULATION (2003)
Bilayer ice and alternate liquid phases of confined water
R Zangi et al.
JOURNAL OF CHEMICAL PHYSICS (2003)
Computer simulation of bilayer ice:: structures and thermodynamics
J Slovák et al.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS (2003)
Phase transition in confined water inside carbon nanotubes
Y Maniwa et al.
JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN (2002)
How does water freeze inside carbon nanotubes?
K Koga et al.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS (2002)
Interplay between time-temperature transformation and the liquid-liquid phase transition in water
M Yamada et al.
PHYSICAL REVIEW LETTERS (2002)
Formation of ordered ice nanotubes inside carbon nanotubes
K Koga et al.
NATURE (2001)
Melting and freezing of water in ordered mesoporous silica materials
A Schreiber et al.
PHYSICAL CHEMISTRY CHEMICAL PHYSICS (2001)
First-order transition in confined water between high-density liquid and low-density amorphous phases
K Koga et al.
NATURE (2000)
Ice nanotube: What does the unit cell look like?
K Koga et al.
JOURNAL OF CHEMICAL PHYSICS (2000)