Phase diagram of supercooled water confined to hydrophilic nanopores. - Wikidata - awgldk - TriplyDB

Phase diagram of supercooled water confined to hydrophilic nanopores.

Phase diagram of supercooled water confined to hydrophilic nanopores.

http://www.wikidata.org/entity/Q46013722

about

Phase diagram of water confined in MCM-41 up to 700 MPa.Theory of amorphous ices.Direct calculation of ice homogeneous nucleation rate for a molecular model of water.The putative liquid-liquid transition is a liquid-solid transition in atomistic models of water. II.Radical re-appraisal of water structure in hydrophilic confinement.The length and time scales of water's glass transitions.Enhanced heterogeneous ice nucleation by special surface geometry.Low-density liquid water is the mother of ice: on the relation between mesostructure, thermodynamics and ice crystallization in solutions.A comparative study on bulk and nanoconfined water by time-resolved optical Kerr effect spectroscopy.On the state of water in 2.4 nm cylindrical pores of MCM from dynamic and normal specific heat studies.Nature of the anomalies in the supercooled liquid state of the mW model of water.Ice nucleation at the nanoscale probes no man's land of water.Density equalisation in supercooled high- and low-density water mixtures.Deeply-cooled water under strong confinement: neutron scattering investigations and the liquid-liquid critical point hypothesis.Role of stacking disorder in ice nucleation.Premelting, fluctuations, and coarse-graining of water-ice interfaces.Hydration-dependent dynamics of deeply cooled water under strong confinement.Stacking disorder in ice I.Pre-ordering of interfacial water in the pathway of heterogeneous ice nucleation does not lead to a two-step crystallization mechanism.Massively parallel molecular dynamics simulation of formation of ice-crystallite precursors in supercooled water: incipient-nucleation behavior and role of system size.Self-intermediate scattering function analysis of supercooled water confined in hydrophilic silica nanopores.Solid-liquid interfacial free energy of ice Ih, ice Ic, and ice 0 within a mono-atomic model of water via the capillary wave method.Free energy contributions and structural characterization of stacking disordered ices.Computational investigation of structure, dynamics and nucleation kinetics of a family of modified Stillinger-Weber model fluids in bulk and free-standing thin films.Density of hydrophobically confined deeply cooled water investigated by small angle X-ray scattering.Ice nucleation on carbon surface supports the classical theory for heterogeneous nucleation.Room temperature compressibility and diffusivity of liquid water from first principles

P2860

Q30901883-427F8233-B7D2-4C9A-83D3-3FFD3B42DBC7 Q33854100-88CE48F3-07FE-469A-91B9-C72222BC4680 Q36008424-C5EBA7ED-96F9-44F1-A81E-BDB916F5DA05 Q38396082-10749FB4-5948-4AFB-BEF3-159917FAD528 Q41113526-399B39A7-ED24-4A5A-8752-8FE9B0332486 Q41602517-9B7E4C30-FB3C-4FCB-A1FD-648AA8FD32C7 Q41811747-746A91C5-1AF5-453E-BABA-B16A0292C6C1 Q43699990-98E72656-895B-4C93-BFB8-7A176A0C1320 Q44033454-30C77832-94B5-46D6-8630-182D57567BCA Q44559141-3690DE82-E58A-4D4B-8D84-50F0C6AC2EE2 Q44810218-34957939-70D5-47DB-B8B7-498A36B9ADE4 Q44884774-0A23BB3E-2585-4D1E-93B9-22EF7E3C2C64 Q45331315-4B8A7E06-3B30-44B7-8242-1A050D3AFCB0 Q45389187-A520C969-8DBE-479A-B11D-98A5EB7DB7D6 Q46020171-2A449962-3B58-4740-890A-0D02CC4BE79B Q46241385-E6B845DE-3BE3-47E8-B9EF-047770BFDE2F Q46569243-A0AFA729-3A85-47FD-B083-E4BEBCD5404D Q46623101-C64A122D-8B18-4474-8818-33D47497DDAE Q46844810-DBFDD58A-4DF6-42E0-A6E7-DD6E68D20386 Q47354444-6D1C7D58-F7EE-4F6C-B972-6FB588B41FA5 Q48012534-64D77206-30F0-4A21-878A-5640EBB37F99 Q48046680-791EF9F8-080F-43FD-AFE6-7F67F3025865 Q50662085-CCCE2BA6-BC04-40B1-951A-67576E2EE7A8 Q51557688-F85F4B83-3EE3-43AD-B958-AEEAE2904857 Q51729459-98006B13-47A4-4261-85D4-A3DB1CA237EA Q53210706-CD5F4119-031B-40DD-A4FC-A144E2ED6786 Q58928730-96150DED-9E37-4E7C-B39D-9CC2B05FCD53

P2860

Phase diagram of supercooled water confined to hydrophilic nanopores.

http://www.wikidata.org/entity/Q46013722

description

2012 nî lūn-bûn

@nan

2012年の論文

@ja

2012年学术文章

@wuu

2012年学术文章

@zh

2012年学术文章

@zh-cn

2012年学术文章

@zh-hans

2012年学术文章

@zh-my

2012年学术文章

@zh-sg

2012年學術文章

@yue

2012年學術文章

@zh-hant

name

Phase diagram of supercooled water confined to hydrophilic nanopores.

@en

Phase diagram of supercooled water confined to hydrophilic nanopores.

@nl

type

label

Phase diagram of supercooled water confined to hydrophilic nanopores.

@en

Phase diagram of supercooled water confined to hydrophilic nanopores.

@nl

prefLabel

Phase diagram of supercooled water confined to hydrophilic nanopores.

@en

Phase diagram of supercooled water confined to hydrophilic nanopores.

@nl

P1433

Q46013722-3C5EDCE9-D7E8-48D1-87F8-2CC0823B9ED3

P1476

Q46013722-1A8A2F54-6CDA-4325-A135-B4639BE081D0

P2093

Q46013722-502A861B-5DA9-4B72-B304-2357FA36D2AC

Q46013722-BFC34700-8724-45DE-9F2C-4047C3205587

P2860

Q46013722-01395814-F7BD-4B4E-B5FA-4AC5998D722B

Q46013722-017F6868-3602-4D90-B04B-7D6D9DB60583

Q46013722-08B117A2-7B30-45C3-A39F-CD4F9F6DDE73

Q46013722-58B03030-8F4E-4C74-990F-1AA0D37C27E6

Q46013722-5A3AE25B-A2AE-4566-9575-E575F4B377CD

Q46013722-5B9F94D2-9009-4817-9E0B-5133FAE68BF8

Q46013722-648B4EDA-395F-4193-B338-110C02734FA3

Q46013722-6BF1131C-4C9C-4006-B3CE-AB39AD068079

Q46013722-6CA0AA57-ADB4-4306-9E3E-A67CE1C8ADE1

Q46013722-86E9944E-B781-401C-AB22-72860B538FC3

P304

Q46013722-C6C66E29-8A2C-43AF-BE39-2A20C11C664B

P31

Q46013722-2CA9BA2D-0FFD-4FDF-83A3-38C17BC6F84C

P356

Q46013722-91001B7D-3BF2-4BCD-8723-56A7C08C8A0E

P407

Q46013722-BE8CDA69-C0DF-4610-98FE-5EE1017C1C6E

P433

Q46013722-1F17439D-81CC-4759-9BB9-90BE5805F6A5

P478

Q46013722-1B9F50A8-3694-4CFA-8E34-3034B82B7EF7

P577

Q46013722-8CA7DC40-0C05-4C32-A570-34AD14A23BED

P5875

Q46013722-3CC14D23-C271-4089-AD42-D6A3A0C39A37

P698

Q46013722-39CABD0D-5FAC-4000-924D-926F2C61E768

P818

Q46013722-3DF6FDBA-2BA9-483A-B524-026FE3C99AAA

P356

P1433

Journal of Chemical Physics

P1476

Phase diagram of supercooled water confined to hydrophilic nanopores.

@en

P2093

David Chandler

http://www.w3.org/2001/XMLSchema#string

David T Limmer

http://www.w3.org/2001/XMLSchema#string

P2860

The aquaporin water channels

The fragile-to-strong dynamic crossover transition in confined water: nuclear magnetic resonance results.

Dynamics of supercooled water in various mesopore sizes.

Freezing and melting of water confined in silica nanopores.

Density hysteresis of heavy water confined in a nanoporous silica matrix.

Quasi-liquid layers on ice crystal surfaces are made up of two different phases

Growing correlation length in supercooled water.

Density minimum in supercooled confined water.

The anomalously high melting temperature of bilayer ice.

Density profile of water confined in cylindrical pores in MCM-41 silica.

P304

044509

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1063/1.4737907

http://www.w3.org/2001/XMLSchema#string

P407

P433

4

http://www.w3.org/2001/XMLSchema#string

P478

137

http://www.w3.org/2001/XMLSchema#string

P577

2012-07-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

230593875

http://www.w3.org/2001/XMLSchema#string

P698

22852633

http://www.w3.org/2001/XMLSchema#string

P818

1205.2157

http://www.w3.org/2001/XMLSchema#string