Drew Parsons
Drew Parsons
Senior Lecturer, Discipline of Chemistry and Physics, CSHEE, Murdoch University
Verified email at murdoch.edu.au - Homepage
Cited by
Cited by
Hofmeister effects: interplay of hydration, nonelectrostatic potentials, and ion size
DF Parsons, M Boström, PL Nostro, BW Ninham
Physical Chemistry Chemical Physics 13 (27), 12352-12367, 2011
Measurements and theoretical interpretation of points of zero charge/potential of BSA protein
A Salis, M Boström, L Medda, F Cugia, B Barse, DF Parsons, ...
Langmuir 27 (18), 11597-11604, 2011
Why direct or reversed Hofmeister series? Interplay of hydration, non-electrostatic potentials, and ion size
DF Parsons, M Bostrom, TJ Maceina, A Salis, BW Ninham
Langmuir 26 (5), 3323-3328, 2009
Possible origin of the inverse and direct Hofmeister series for lysozyme at low and high salt concentrations
M Boström, DF Parsons, A Salis, BW Ninham, M Monduzzi
Langmuir 27 (15), 9504-9511, 2011
Ab initio molar volumes and gaussian radii
DF Parsons, BW Ninham
The Journal of Physical Chemistry A 113 (6), 1141-1150, 2009
Importance of accurate dynamic polarizabilities for the ionic dispersion interactions of alkali halides
DF Parsons, BW Ninham
Langmuir 26 (3), 1816-1823, 2009
Ion specific surface charge density of SBA-15 mesoporous silica
A Salis, DF Parsons, M Boström, L Medda, B Barse, BW Ninham, ...
Langmuir 26 (4), 2484-2490, 2009
Charge reversal of surfaces in divalent electrolytes: The role of ionic dispersion interactions
DF Parsons, BW Ninham
Langmuir 26 (9), 6430-6436, 2010
Hofmeister challenges: Ion binding and charge of the BSA protein as explicit examples
L Medda, B Barse, F Cugia, M Boström, DF Parsons, BW Ninham, ...
Langmuir 28 (47), 16355-16363, 2012
Hofmeister series reversal for lysozyme by change in pH and salt concentration: insights from electrophoretic mobility measurements
A Salis, F Cugia, DF Parsons, BW Ninham, M Monduzzi
Physical Chemistry Chemical Physics 14 (13), 4343-4346, 2012
Approaches to hydration, old and new: Insights through Hofmeister effects
BW Ninham, TT Duignan, DF Parsons
Current Opinion in Colloid & Interface Science 16 (6), 612-617, 2011
Collins’s rule, Hofmeister effects and ionic dispersion interactions
TT Duignan, DF Parsons, BW Ninham
Chemical Physics Letters 608, 55-59, 2014
A Continuum Model of Solvation Energies Including Electrostatic, Dispersion, and Cavity Contributions
TT Duignan, DF Parsons, BW Ninham
The Journal of Physical Chemistry B 117 (32), 9421-9429, 2013
An advanced continuum medium model for treating solvation effects: Nonlocal electrostatics with a cavity
MV Basilevsky, DF Parsons
The Journal of chemical physics 105 (9), 3734-3746, 1996
A Continuum Solvent Model of the Multipolar Dispersion Solvation Energy
TT Duignan, DF Parsons, BW Ninham
The Journal of Physical Chemistry B 117 (32), 9412-9420, 2013
Implications of rotation–inversion–permutation invariance for analytic molecular potential energy surfaces
MA Collins, DF Parsons
The Journal of chemical physics 99 (9), 6756-6772, 1993
Surface charge reversal and hydration forces explained by ionic dispersion forces and surface hydration
DF Parsons, BW Ninham
Colloids and Surfaces A: Physicochemical and Engineering Aspects 383 (1-3), 2-9, 2011
Surface forces: Surface roughness in theory and experiment
DF Parsons, RB Walsh, VSJ Craig
The Journal of Chemical Physics 140 (16), 164701, 2014
Globule transitions of a single homopolymer: A Wang-Landau Monte Carlo study
DF Parsons, DRM Williams
Physical Review E 74 (4), 041804, 2006
An off-lattice Wang-Landau study of the coil-globule and melting transitions of a flexible homopolymer
DF Parsons, DRM Williams
The Journal of Chemical Physics 124 (22), 221103, 2006
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