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New Phases of Water Ice Predicted at Megabar PressuresGround-state structures of ice at high pressures from ab initio random structure searchingProton ordering in cubic ice and hexagonal ice; a potential new ice phase—XIcProton Ordering of Cubic Ice Ic: Spectroscopy and Computer SimulationsThe complexity of hydration of phloroglucinol: a comprehensive structural and thermodynamic characterization.First principles molecular dynamics study of filled ice hydrogen hydrate.Small-angle water reorientations in KOH doped hexagonal ice and clathrate hydrates.The random phase approximation applied to ice.High pressure ices.Dynamics enhanced by HCl doping triggers full Pauling entropy release at the ice XII-XIV transitionA new phase diagram of water under negative pressure: The rise of the lowest-density clathrate s-IIIPartially ordered state of ice XV.Quantum simulation of thermally-driven phase transition and oxygen K-edge x-ray absorption of high-pressure ice.Crystallisation of the amorphous ices in the intermediate pressure regimeDetailed crystallographic analysis of the ice VI to ice XV hydrogen ordering phase transition.On the accuracy of van der Waals inclusive density-functional theory exchange-correlation functionals for ice at ambient and high pressures.Benchmarking DFT and semiempirical methods on structures and lattice energies for ten ice polymorphs.The polymorphism of ice: five unresolved questions.The phase diagram of ice: a quasi-harmonic study based on a flexible water model.First-principles energetics of water clusters and ice: a many-body analysis.Three-dimensional infrared spectroscopy of isotope-diluted ice Ih.GenIce: Hydrogen-Disordered Ice Generator.Communication: Hypothetical ultralow-density ice polymorphs.Assessment of density functional theory to calculate the phase transition pressure of ice.Kinetically Controlled Two-Step Amorphization and Amorphous-Amorphous Transition in Ice.Hydrogen bonds and van der waals forces in ice at ambient and high pressures.Molecular dynamics simulations of proton-ordered water confined in low-diameter carbon nanotubes.Ultrafast pump-probe and 2DIR anisotropy and temperature-dependent dynamics of liquid water within the E3B model.Second-order many-body perturbation and coupled-cluster singles and doubles study of ice VIII.Nature of the Volume Isotope Effect in Ice.Phase behaviors of deeply supercooled bilayer water unseen in bulk water.Enhanced Configurational Entropy in High-Density Nanoconfined Bilayer Ice.Investigation of high-pressure planetary ices by cryo-recovery. II. High-pressure apparatus, examples and a new high-pressure phase of MgSO4·5H2O.Experiments indicating a second hydrogen ordered phase of ice VI.Complexity in molecular recognitionDFT-assisted interpretation of the Raman spectra of hydrogen-ordered ice XVStructure and OH-stretch spectroscopy of low- and high-density amorphous icesX-ray and Neutron Diffraction in the Study of Organic Crystalline Hydrates
P2860
Q21706547-77C0E719-4B2A-4210-830B-6E06E16C0408Q22242659-346D9450-C892-49D6-8A59-C029E9DB6970Q29010624-F5DE0C23-53AF-433B-B2FB-0F221C6909D7Q30437857-8E83F4B0-4780-4817-BED7-955B0A82C97FQ30512743-07193F47-E95F-4522-8538-A36F0DDAEEBDQ30560381-BD1668F8-B738-4D9B-936D-B71352B6EEBCQ30606320-0506D76B-AF28-4A3F-9081-65D2877F49F0Q35109311-D908B49B-20ED-402F-B024-E2B83D35C4FEQ35735208-16B39B49-9FA8-4B8D-B575-4F735B05A86EQ35814284-B8C69577-08F7-4963-BE9C-EB4A4F4B8D8CQ35942584-22FCFAB0-6F9B-4998-B428-7BE2E68203FDQ37061636-393B6393-BF61-483C-A194-88FA1E8108A6Q37326801-7CC678B9-446F-4978-B76F-061D88D08A29Q38668270-F23080DB-CC45-4EFB-8DFC-91E5B7571C54Q39138792-ABAFE6C8-F498-4BF4-ABBE-00057E6E0589Q39326150-553BCA68-C194-46FF-912F-C1F6F2BFE07DQ41125926-BD75A57D-DE19-4712-A809-E8CCC0683AFFQ42617616-608B5E35-9219-45A8-A05D-5A99C94F133FQ45359660-9687AD27-8DC6-4B77-B3CE-58156957E5ECQ45957968-EA1250BA-A1BB-4023-9B10-E2282814AA4FQ45965087-50931360-4E5E-4460-B82C-502372104552Q47653384-41ACA415-1452-4D7C-889B-CE8F5C4407AEQ47894402-D28C904E-9123-4498-AC10-96548E57D37AQ49115188-C1A7F007-04A3-4FBC-80B5-45FE03810FAEQ50004797-1BCDF374-EC48-4626-86AF-D3AA60148C9AQ50062648-49857FB8-8E1B-4F2A-9E56-35060D012FE9Q50957142-C1BDDE58-53E3-4479-9A2D-4FB74B6DA99EQ51066927-84E9ADCC-9159-4004-9D21-13F7C65195F3Q51088803-626DFB49-D8ED-4A81-A134-50721B3F42DAQ51652629-F2926601-F968-4E4F-ADB0-8AF297B3072DQ52565539-57AD7A7A-80FD-4CBA-BD95-131E91853141Q53969154-DF1085FC-FDFE-4701-8917-2024657FEC06Q55072996-4038A57E-9FD0-4C75-9CB2-96F9178220BBQ55364108-51DA3B17-8E60-452C-A056-760883697089Q56041095-B716A227-BDA4-4F80-A268-77720FE0ED8AQ56331143-2F96AFB4-B2B6-4D18-96D7-5E3056D96612Q57164342-92C5A47B-0644-49FF-80E3-D340CC1AD3A8Q57549946-283AE529-F296-49F4-9643-55A23D392068
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Ice XV: A New Thermodynamically Stable Phase of Ice
@ast
Ice XV: A New Thermodynamically Stable Phase of Ice
@en
Ice XV: A New Thermodynamically Stable Phase of Ice
@nl
type
label
Ice XV: A New Thermodynamically Stable Phase of Ice
@ast
Ice XV: A New Thermodynamically Stable Phase of Ice
@en
Ice XV: A New Thermodynamically Stable Phase of Ice
@nl
altLabel
Ice XV: a new thermodynamically stable phase of ice
@en
prefLabel
Ice XV: A New Thermodynamically Stable Phase of Ice
@ast
Ice XV: A New Thermodynamically Stable Phase of Ice
@en
Ice XV: A New Thermodynamically Stable Phase of Ice
@nl
P2093
P2860
P3181
P1476
Ice XV: A New Thermodynamically Stable Phase of Ice
@en
P2093
Christoph G. Salzmann
Erwin Mayer
John L. Finney
Paolo G. Radaelli
P2860
P304
P3181
P356
10.1103/PHYSREVLETT.103.105701
P407
P577
2009-09-01T00:00:00Z
2009-09-02T00:00:00Z