Extended surfaces modulate hydrophobic interactions of neighboring solutes.
about
Interlayer water regulates the bio-nano interface of a β-sheet protein stacking on graphene.Necessity of capillary modes in a minimal model of nanoscale hydrophobic solvationHeterogeneous preferential solvation of water and trifluoroethanol in homologous lysozymes.Sitting at the edge: how biomolecules use hydrophobicity to tune their interactions and functionReal-time monitoring of hydrophobic aggregation reveals a critical role of cooperativity in hydrophobic effect.Water-mediated ion-ion interactions are enhanced at the water vapor-liquid interface.Intrinsic disorder modulates protein self-assembly and aggregation.Protein denaturants at aqueous-hydrophobic interfaces: self-consistent correlation between induced interfacial fluctuations and denaturant stability at the interface.Unraveling the hydrophobic effect, one molecule at a time.Pathways to dewetting in hydrophobic confinement.Smoothing of the GB1 hairpin folding landscape by interfacial confinement.Activated drying in hydrophobic nanopores and the line tension of waterPre-transition effects mediate forces of assembly between transmembrane proteins.DNA hairpin stabilization on a hydrophobic surface.Molecular Shape and the Hydrophobic Effect.Molecular explanation for why talc surfaces can be both hydrophilic and hydrophobic.Patchy supramolecules as versatile tools to probe hydrophobicity in nanoglobular systems.Solute-Solvent Energetics Based on Proximal Distribution FunctionsHow Water's Properties Are Encoded in Its Molecular Structure and Energies.The hydrophobic effect, and fluctuations: The long and the short of it.The interfacial-organized monolayer water film (MWF) induced "two-step" aggregation of nanographene: both in stacking and sliding assembly pathways.Long-range specific ion-ion interactions in hydrogen-bonded liquid films.Molecular modeling of ions at interfaces: exploring similarities to hydrophobic solvation through the lens of induced aqueous interfacial fluctuations.The molecular structure of the interface between water and a hydrophobic substrate is liquid-vapor like.Solute particle near a nanopore: influence of size and surface properties on the solvent-mediated forces.Hydrophobicity of proteins and nanostructured solutes is governed by topographical and chemical context.Arginine mutations in antibody complementarity-determining regions display context-dependent affinity/specificity trade-offs.Mass density fluctuations in quantum and classical descriptions of liquid water.Nonpolar Solvation Free Energy from Proximal Distribution Functions.Atomistic simulations of wetting properties and water films on hydrophilic surfaces.Tuning One-Dimensional Nanostructures of Bola-Like Peptide Amphiphiles by Varying the Hydrophilic Amino Acids.Light-induced dilation in nanosheets of charge-transfer complexes.Putting water on a lattice: the importance of long wavelength density fluctuations in theories of hydrophobic and interfacial phenomenaLocal water diffusivity as a molecular probe of surface hydrophilicityMolecular behavior of water in TiO2 nano-slits with varying coverages of carbon: a molecular dynamics simulation study
P2860
Q27309171-8CF993E6-84B8-429C-AA22-614A03572BC5Q28834342-EFBDB20D-F3CA-4F71-A361-D55AC9C09280Q30362502-53689D98-9B14-41B0-8D50-0FE40E488061Q33352827-7E6DDB16-CCFD-4E43-92D1-DF58B7725489Q33766776-8E6421D4-278A-4866-9041-0B1CA0BFFF4DQ33790210-F79E1075-2A72-4E2D-ABA7-B248F0ECCEB9Q34234815-ECE80831-6155-4F44-8043-7961C242E070Q34917835-CA3B6E1A-49CC-4967-BA27-B9C3E9596AA2Q35289115-35977578-F5DE-4054-9592-0660429B7F41Q35845719-01F2382B-FF16-4985-9091-4FB63FC0F529Q36150846-11F90B09-FEAA-44DE-88CC-BAD1F562FF95Q36438530-CD52B984-FA8B-45AF-A160-0E6F77EB74B2Q36827589-29F47FDC-F6D6-408C-9345-6750C72DEDEDQ37091190-031F4B6F-5E2A-4729-9223-D13E1DF2F255Q38842249-35368EDC-BCBC-40D7-A5D0-A508B814CF49Q40094455-9D177D0E-7CB4-4A15-BDD1-BBF08EA8A24EQ40473063-053035BB-E29F-4DE6-A46A-76708C165F47Q42321068-67848A36-2C1E-48A3-A7A5-AD4DB7B73223Q42376486-88210EFB-B82D-405F-B3A0-59497E5DD8E8Q42562464-C4907040-841E-41E7-8786-9A5CA00BC6C4Q43965461-C74FA458-123B-4DE1-835A-9B4A06503F5AQ45772554-1F994D63-7F2A-4B6F-9B2F-AAB0FCA7E934Q46467527-34422496-82A5-43EE-8FB5-88E8F6F22E46Q46768351-13F5E622-81D9-4873-8B25-6E7915DCDE11Q47178691-384EF6B8-7B80-43C9-9A67-FDF5A03B8355Q47329568-6E318274-1086-40AC-8385-076261245B62Q47831558-EDCCCACC-F229-4F42-AD4B-BAB983AFFF1AQ47986857-DBDBFB71-887C-4E01-B849-D8BBAF59D9AFQ48051566-7E4598EC-D003-4BF6-AC71-E986DC834275Q48062608-59182511-1941-4EBD-BA7D-32419E747913Q51672350-7CFB6B86-9032-401D-8A5E-BE21FA0C4BCBQ52629619-515DBCEA-D1DA-4A5E-8D73-67CF5F1EBA39Q57146374-16633606-B7F8-42CB-8091-65FD45B2F047Q57371733-F59D4B28-B028-4F75-8210-7B858D5D688CQ57433106-5D063912-13E8-4E8A-BE2E-48CB854A54EE
P2860
Extended surfaces modulate hydrophobic interactions of neighboring solutes.
description
2011 nî lūn-bûn
@nan
2011 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Extended surfaces modulate hydrophobic interactions of neighboring solutes.
@ast
Extended surfaces modulate hydrophobic interactions of neighboring solutes.
@en
type
label
Extended surfaces modulate hydrophobic interactions of neighboring solutes.
@ast
Extended surfaces modulate hydrophobic interactions of neighboring solutes.
@en
prefLabel
Extended surfaces modulate hydrophobic interactions of neighboring solutes.
@ast
Extended surfaces modulate hydrophobic interactions of neighboring solutes.
@en
P2093
P2860
P356
P1476
Extended surfaces modulate hydrophobic interactions of neighboring solutes.
@en
P2093
David Chandler
Hari Acharya
Shekhar Garde
Sumanth N Jamadagni
P2860
P304
17678-17683
P356
10.1073/PNAS.1110703108
P407
P577
2011-10-10T00:00:00Z