Publications

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Publications

Numerical Methods

Toward Quantitative Coarse-Grained Models of Lipids with Fluids Density Functional Theory

Frink, LJD; Frischknecht, A.L.; Heroux, M.A.; Parks, M.L.; Salinger, A.G. Source: J. CHEM. THEORY COMPUT.; 2012; v. 8, no. 4, 1393-1408

Parallel segregated Schur complement methods for fluid density functional theories

Heroux, MA; Salinger, AG; Frink, LJD Source: SIAM J. SCI. COMPUT.; 2007; v. 29, no. 5, 2059-2077

A combined molecular simulation-molecular theory method applied to a polyatomic molecule in a dense solvent

Frink, LJD; Martin, M Source: CONDENSED MATTER PHYSICS; 2005; v.8, no.2, p.271-280

A new efficient method for density functional theory calculations of inhomogeneous fluids.

Sears, MP; Frink, LJD Source: Journal of Computational Physics; 1 Sept. 2003; vol.190, no.1, p.184-200

Rapid analysis of phase behavior with density functional theory. I. Novel numerical methods.

Salinger, AG; Frink, LJD Source: Journal of Chemical Physics; 22 April 2003; vol.118, no.16, p.7457-65

Density functional theory for inhomogeneous polymer systems. I. Numerical methods.

Frischknecht, AL; Weinhold, JD; Salinger, AG; Curro, JG; Frink, LJD; McCoy, JD Source: Journal of Chemical Physics; 8 Dec. 2002; vol.117, no.22, p.10385-97

Numerical challenges in the application of density functional theory to biology and nanotechnology.

Frink, LJD; Salinger, AG; Sears, MP; Weinhold, JD; Frischknecht, AL Source: Journal of Physics: Condensed Matter; 25 Nov. 2002; vol.14, no.46, p.12167-87

Applying molecular theory to steady-state diffusing systems

Frink, LJD; Thompson, A; Salinger, AG Source: JOURNAL OF CHEMICAL PHYSICS; MAY 1 2000; v.112, no.17, p.7564-7571

Two- and three-dimensional nonlocal density functional theory for inhomogeneous fluids. II. Solvated polymers as a benchmark problem.

Frink, LJD; Salinger, AG Source: Journal of Computational Physics; 10 April 2000; vol.159, no.2, p.425-39

Two- and three-dimensional nonlocal density functional theory for inhomogeneous fluids. I. Algorithms and parallelization.

Frink, LJD; Salinger, AG Source: Journal of Computational Physics; 10 April 2000; vol.159, no.2, p.407-24

Solvation forces and colloidal stability: a combined Monte Carlo and density functional theory approach.

Frink, LJD; van Swol, F Source: Journal of Chemical Physics; 15 June 1994; vol.100, no.12, p.9106-16

Applications of DFT Software

Dispersion of Polymer-Grafted Nanorods in Homopolymer Films: Theory and Experiemnt

Frischknecht, A.L.; Hore, M.J.A.; Ford, J.; Composto, R.J. Source: MACROMOLECULES; 2013; v. 46, 2856-2869

Toward Quantitative Coarse-Grained Models of Lipids with Fluids Density Functional Theory

Frink, LJD; Frischknecht, A.L.; Heroux, M.A.; Parks, M.L.; Salinger, A.G. Source: J. CHEM. THEORY COMPUT.; 2012; v. 8, no. 4, 1393-1408

Response behavior of diblock copolymer brushes in explicit solvent

K. Gong, B. D. Marshall, and W. G. Chapman Source: J. CHEM. PHYS.; 2012; v. 137: 154904

Surface-induced phase behavior of polymer/nanoparticle blends with attractions

Frischknecht, AL; Padmanabhan, V.; Mackay, M.E. Source: J. CHEM. PHYS.; 2012; v. 136: 164904

Solvent response of mixed polymer brushes

K. Gong and W. G. Chapman Source: J. CHEM. PHYS.; 2011; v. 135: 214901

Predictive Model for Optimizing Guest-Host Lennard-Jones Interactions in Zeolites

Garcia-Sanchez, A.; Eggink, E.; McGarrity, E.S.; Calero, S.; Vlugt, T.H.H. Source: J. PHYS. CHEM. C; 2011; v. 115: 10187-10195

Two- and three-body interactions among nanoparticles in a polymer melt

Frischknecht, AL; Yethiraj, A. Source: J. CHEM. PHYS.; 2011; v. 134: 174901

Binary fluid with attractions near a planar wall

Padmanabhan, V; Frischknecht, AL; Mackay, ME Source: PHYS. REV. E; 2010; v. 82: 021507

Molecular Theory Applied to Lipid Bilayers and Lipid-Protein Interactions

Frischknecht, AL; Frink LJD Source: Biomembrane Frontiers: Nanostructures, Models, and the Design of Life, R. Faller, T. Jue, M. L. Longo, and S. H. Risbud, eds., Handbook of Modern Biophysics, v. 2 (Springer-Humana Press), 2009.

Forces between nanorods with end-adsorbed chains in a homopolymer melt

Frischknecht, AL Source: J. CHEM. PHYS.; 2008; v. 128: 224902

Phase behavior of polymer/nanoparticle blends near a substrate

McGarrity, ES; Frischknecht, AL; Mackay, ME Source: J. CHEM. PHYS.; 2008; v. 128: 154904

Surface-induced first order transition in athermal polymer/nanoparticle blends

McGarrity, ES; Frischknecht, AL; Frink, LJD; Mackay, ME Source: PHYS. REV. LETT.; 2007; v. 99: 238302

Computational Investigations of Pore Forming Peptide Assemblies in Lipid Bilayers

Frink, LJD; Frischknecht, AL Source: PHYS. REV. LETT.; NOV. 2006; v. 97: ART. 208701

Alcohols Reduce Lateral Membrane Pressures: Predictions from Molecular Theory

Frischknecht, AL; Frink, LJD Source: BIOPHYS. J; 2006; v. 91: 4081-4090

Density functional theory approach for coarse-grained lipid bilayers

Frink, LJD; AL Frischknecht Source: PHYSICAL REVIEW E; OCT 2005; v.72, no.4, pt.1, p.041923

Comparison of density functional theory and simulation of fluid bilayers

AL Frischknecht; Frink, LJD Source: PHYSICAL REVIEW E; OCT 2005; v.72, no.4, pt.1, p.041924

Rapid analysis of phase behavior with density functional theory. II. Capillary condensation in disordered porous media.

Frink, LJD; Salinger, AG Source: Journal of Chemical Physics; 22 April 2003; vol.118, no.16, p.7466-76

Interactions and assembly of simple solvated polymers

Frink, LJD; Salinger, AG Source: LANGMUIR; JAN 7 2003; v.19, no.1, p.182-185

Density functional theory for inhomogeneous polymer systems. II. Application to block copolymer thin films.

Frischknecht, AL; Curro, JG; Frink, LJD Source: Journal of Chemical Physics; 8 Dec. 2002; vol.117, no.22, p.10398-411

A common theoretical basis for surface forces apparatus, osmotic stress, and beam bending measurements of surface forces

Frink, LJD; van Swol, F Source: COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS; MAR 15 2000; v.162, no.1-3, p.25-36

Stress isotherms of porous thin materials: Theoretical predictions from a nonlocal density functional theory

Frink, LJD; van Swol, F Source: LANGMUIR; APR 27 1999; v.15, no.9, p.3296-3301

Wetting of a chemically heterogeneous surface.

Frink, LJD; Salinger, AG Source: Journal of Chemical Physics; 22 March 1999; vol.110, no.12, p.5969-77

Direct measurement of solvation forces in complex microporous media: a new characterization tool.

Samuel, J; Brinker, CJ; Frink, LJD; van Swol, F Source: Langmuir; 12 May 1998; vol.14, no.10, p.2602-5

Solvation forces between rough surfaces

Frink, LJD; van Swol, F Source: JOURNAL OF CHEMICAL PHYSICS; APR 1 1998; v.108, no.13, p.5588-5598

A molecular theory for surface forces adhesion measurements.

Frink, LJD; van Swol, F Source: Journal of Chemical Physics; 1 March 1997; vol.106, no.9, p.3782-91

Revisiting experimental tests of the Laplace-Kelvin equation.

Van Swol, F.; Frink, LJD Source: Dynamics in Small Confining Systems III. Symposium, 2-5 Dec. 1996, Boston, MA, USA; p.159-64 Conference: Dynamics in Small Confining Systems III. Symposium, 2-5 Dec. 1996, Boston, MA, USA

Oscillatory surface forces: A test of the superposition approximation

Frink, LJD; vanSwol, F Source: JOURNAL OF CHEMICAL PHYSICS; AUG 15 1996; v.105, no.7, p.2884-2890

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