Drew Parsons
Drew Parsons
Senior Lecturer, Discipline of Chemistry and Physics, CSHEE, Murdoch University
Verified email at murdoch.edu.au - Homepage
Title
Cited by
Cited by
Year
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
3542011
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
1582011
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
1152009
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
1102011
Ab initio molar volumes and gaussian radii
DF Parsons, BW Ninham
The Journal of Physical Chemistry A 113 (6), 1141-1150, 2009
952009
Importance of accurate dynamic polarizabilities for the ionic dispersion interactions of alkali halides
DF Parsons, BW Ninham
Langmuir 26 (3), 1816-1823, 2009
902009
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
882009
Charge reversal of surfaces in divalent electrolytes: The role of ionic dispersion interactions
DF Parsons, BW Ninham
Langmuir 26 (9), 6430-6436, 2010
802010
Collins’s rule, Hofmeister effects and ionic dispersion interactions
TT Duignan, DF Parsons, BW Ninham
Chemical Physics Letters 608, 55-59, 2014
732014
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
732012
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
692012
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
672013
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
672011
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
652013
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
642011
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
631996
Surface forces: Surface roughness in theory and experiment
DF Parsons, RB Walsh, VSJ Craig
The Journal of Chemical Physics 140 (16), 164701, 2014
612014
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
601993
Specific Cation Effects on Hemoglobin Aggregation below and at Physiological Salt Concentration
L Medda, C Carucci, DF Parsons, BW Ninham, M Monduzzi, A Salis
Langmuir 29 (49), 15350-15358, 2013
562013
Globule transitions of a single homopolymer: A Wang-Landau Monte Carlo study
DF Parsons, DRM Williams
Physical Review E 74 (4), 041804, 2006
542006
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