Summary on organic/inorganic interfaces

From: "Merethe Sjovoll" <msj (+ at +) fskru5.hre.hydro.com>
Subject: Summary on organic/inorganic interfaces
Date: Mon, 7 Jul 1997 10:44:56 -0600
 Here is finally the summary of the responses I got on available litterature
 relating to forcefields used for organic/inorganic interfaces. Thanks to those
 who responded.
 Hello everyone,
 I would appreciate very much any reference to publications on molecular
 mechanics simulations of organic/inorganic interfaces, particularly in the
 field of scale and corrosion inhibition. I know of the article by Catlow et al.
 on barium sulfate. Does anybody know of any other references?
 Best wishes
 Merethe Sjovoll
 I've seen papers by Michael Sennet and others on silanes adhering to
 aluminum, a topic that I'm about to publish on.  Out of interest, why are
 you interested in molecular mechanics in particular?  I would have thought
 that most of the published work on adsorption onto various surfaces has been
 done using QM methods.  Anyway, I'm generally interested in the whole area
 of molecular mechanics modelling of adsorption so please let me know what
 replies you get.
 I found this in some old mail I saved off the CCL
  (+ at +) ARTICLE{Hill94,
    author = {J{\"o}rg-R. Hill and Joachim Sauer},
    title = {Molecular Mechanics Potential for Silica and Zeolite Catalysts
       Based on ab Initio Calculations. 1. {D}ense and Microporous Silica},
    journal = {Journal of Physical Chemistry},
    volume = 98,
    year = 1994,
    pages = "1238--1244"
 }
  (+ at +) article{Hill95,
   author = {Hill, J. R.  and Sauer, J. },
   title = {Molecular mechanics potential for silica and zeolite catalysts
     based on ab initio calculations. 2. Aluminosilicates},
   journal = {Journal of Physical Chemistry},
   year = 1995,
   month = "8~" # jun,
   volume = "99",
   number = "23",
   pages = "9536--9550",
   abstract = {A consistent force field for the simulation of protonated
     aluminosilicates is presented. It has been developed on the basis of
     ab initio calculations on molecular models following a method proposed
     in a previous paper (J. Phys. Chem. 1994, 98, 1238). The molecular models
     consist of SiO4 and protonated AlO4 tetrahedra connected to chains, rings,
     and cages. The ab initio calculations used a ''double-zeta plus
     polarization'' basis set on the Si, Al, and H atoms and a ''triple-zeta
     plus polarization'' one on the O atoms. The calculated structures of the
     finite models yield a structural model of Bornsted acidic sites which is
     consistent with observed data but more complete than models derived from
     experiments. Compared with these ab initio results the derived force field
     predicts reasonable structures for aluminosilicates, but the errors are
     larger than the errors that our all-silica potential yielded for all-silica
     polymorphs. A new method is proposed for calculating the atomic charges as
     a function of the structure, and the corresponding potential results in
     better structure predictions. The force field is applied to the calculation
     of the local structures of different bridging hydroxyl groups in faujasite,
     and it is shown that results of the same accuracy as with a shell model
     potential are obtained. The predictions for a H-faujasite (Si/Al = 2.43)
     are consistent with mean bond distances and angles deduced from neutron
     diffraction data.}
 }
 And this on Langmuir layers
 For details of this work, see:
 J. Perlstein, "Molecular Self-Assemblies 4..." J. Am. Chem. Soc 116,
 11420 (1994) and references therein.
 For applications of these ideas see:
 H. Chen et. al. "Aggregation of Surfactant Squaraine in LB Films...",
 J.
 Phys. Chem. 98, 5138 (1994)
 as well as the internet page below.
 Software for doing monolayer packing called PACK is available as an
 interface to the CHEMX/CHEMLIB modeling program on SGI workstations from
 Chemical Design, Inc. in Mahwah, N.J.(tel. 201-529-3323).
 Hope that is some help
 Dr. Ross Underhill
 Royal Military College of Canada
 Kingston, Ontario
 K7K 5L0
 (I have looked at clay-organic and clay-water interfaces, though not
 related to scale inhibition. An example of the clay work is in J.
 Phys. Chem. B 101:1579-1587 (1997).
 I have done some unpublished work on barite using the MSI
 Insight/Discover programs.
 Best wishes,
 Brian J. Teppen                                      teppen (+ at +) srel.edu
 Advanced Analytical Center for Environmental Sciences
 Savannah River Ecology Laboratory
 University of Georgia
 Drawer E
 Aiken, SC 29802
 phone:803-725-8157                    fax:803-725-3309
 613) 541-6000 X6175
 Molecular Simulations has a case study of scale inhibitor design via comp.
 chem..  I believe you can find it on their web site (www.msi.com).  Good
 luck,
 brian peterson
 petersbk (+ at +) apci.com
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