Title of article
Water in Nonpolar Confinement: From Nanotubes to Proteins and Beyond
Author/Authors
Garde، Shekhar نويسنده , , Rasaiah، Jayendran C. نويسنده , , Hummer، Gerhard نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
28
From page
713
To page
740
Abstract
Water molecules confined to nonpolar pores and cavities of nanoscopic dimensions exhibit highly unusual properties.Water filling is strongly cooperative, with the possible coexistence of filled and empty states and sensitivity to small perturbations of the pore polarity and solvent conditions. Confined water molecules form tightly hydrogen-bonded wires or clusters. The weak attractions to the confining wall, combined with strong interactions between water molecules, permit exceptionally rapid water flow, exceeding expectations from macroscopic hydrodynamics by several orders of magnitude. The proton mobility along 1D water wires also substantially exceeds that in the bulk. Proteins appear to exploit these unusual properties of confined water in their biological function (e.g., to ensure rapid water flow in aquaporins or to gate proton flow in proton pumps and enzymes). The unusual properties of water in nonpolar confinement are also relevant to the design of novel nanofluidic and molecular separation devices or fuel cells.
Keywords
hydrophobic effect , nanofluidics , protein hydration , nanoscale drying transitions , proton transfer , Nanopores , confined fluids
Journal title
Annual Review of Physical Chemistry
Serial Year
2008
Journal title
Annual Review of Physical Chemistry
Record number
121283
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