Hartnig, Christoph; Witschel, Wolfgang; Spohr, Eckhard:
A Molecular Dynamics study of the structure and dynamics of water in cylindrical pores
In: Journal of Physical Chemistry B : Condensed Matter, Materials, Surfaces, Interfaces & Biophysical Chemistry, Vol. 107 (1998), No. 7, pp. 1241 - 1249
1998article/chapter in journal
ChemistryFaculty of Chemistry
Related: 1 publication(s)
Title:
A Molecular Dynamics study of the structure and dynamics of water in cylindrical pores
Author:
Hartnig, Christoph;Witschel, Wolfgang;Spohr, EckhardUDE
GND
143257005
LSF ID
49123
ORCID
0000-0001-8148-7575ORCID iD
Other
connected with university
Year of publication:
1998
WWW URL:
http://pubs.acs.org/doi/full/10.1021/jp973018d
Appears in
Journal of Physical Chemistry B : Condensed Matter, Materials, Surfaces, Interfaces & Biophysical Chemistry
Title in English (abbreviated):
J Phys Chem B
Place of publication:
Washington
Publisher:
American Chemical Society (ACS)
in:
Vol. 107 (1998), No. 7, pp. 1241 - 1249
ISSN
1520-6106 Show availability online & print
ISSN
1520-5207 Show availability online & print
ZDB ID
2006039-7
Library shelfmark:
70 Z 261
Note:
seit Jg. 101, H. 1 (1997) -
Preceding:
The Journal of Physical Chemistry

Abstract:

The structure and dynamics of confined water in cylindrical pores have been investigated by molecular dynamics simulations. Both rigid (TIP4P) and flexible (BJH) models have been used. Pore radii between 4.2 and 20 Å have been studied; the pore walls are modeled either as a smooth (10−4) Lennard-Jones wall or as a structured wall consisting of (12−6) Lennard-Jones particles. Polar functional groups on the pore surface are modeled by arrays of point charges. We present results on density and orientational distribution functions and on the water mobility. We observe that water transport through nonpolar pores is fast and dominated by the surface layer, whereas transport in polar pores is slowed down relative to bulk liquid water and occurs preferentially through the center of the pore.