New applications of integral equations methods for solvation continuum models: Ionic solutions and liquid crystals

Eric Cancès; Benedetta Mennucci

doi:10.1023/a:1019133611148

New applications of integral equations methods for solvation continuum models: Ionic solutions and liquid crystals

Eric Cancès
, Benedetta Mennucci

University of Pisa

Research output: Contribution to journal › Article › peer-review

Abstract

We present a new method for solving numerically the equations associated with solvation continuum models, which also works when the solvent is an anisotropic dielectric or an ionic solution. This method is based on the integral equation formalism. Its theoretical background is set up and some numerical results for simple systems are given. This method is much more effective than three-dimensional methods used so far, like finite elements or finite differences, in terms of both numerical accuracy and computational costs.

Original language	English
Pages (from-to)	309-326
Number of pages	18
Journal	Journal of Mathematical Chemistry
Volume	23
Issue number	3-4
DOIs	https://doi.org/10.1023/a:1019133611148
Publication status	Published - 1 Jan 1998

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title = "New applications of integral equations methods for solvation continuum models: Ionic solutions and liquid crystals",

abstract = "We present a new method for solving numerically the equations associated with solvation continuum models, which also works when the solvent is an anisotropic dielectric or an ionic solution. This method is based on the integral equation formalism. Its theoretical background is set up and some numerical results for simple systems are given. This method is much more effective than three-dimensional methods used so far, like finite elements or finite differences, in terms of both numerical accuracy and computational costs.",

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AU - Mennucci, Benedetta

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N2 - We present a new method for solving numerically the equations associated with solvation continuum models, which also works when the solvent is an anisotropic dielectric or an ionic solution. This method is based on the integral equation formalism. Its theoretical background is set up and some numerical results for simple systems are given. This method is much more effective than three-dimensional methods used so far, like finite elements or finite differences, in terms of both numerical accuracy and computational costs.

AB - We present a new method for solving numerically the equations associated with solvation continuum models, which also works when the solvent is an anisotropic dielectric or an ionic solution. This method is based on the integral equation formalism. Its theoretical background is set up and some numerical results for simple systems are given. This method is much more effective than three-dimensional methods used so far, like finite elements or finite differences, in terms of both numerical accuracy and computational costs.

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ER -

New applications of integral equations methods for solvation continuum models: Ionic solutions and liquid crystals

Abstract

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