Charge fluctuations in charge-regulated systems: dependence on statistical ensemble

[1]  Y. Levin,et al.  A new method for reactive constant pH simulations. , 2023, The Journal of chemical physics.

[2]  Y. Levin,et al.  Comment on "Simulations of ionization equilibria in weak polyelectrolyte solutions and gels" by J. Landsgesell, L. Nová, O. Rud, F. Uhlík, D. Sean, P. Hebbeker, C. Holm and P. Košovan, Soft Matter, 2019, 15, 1155-1185. , 2023, Soft matter.

[3]  P. van der Schoot,et al.  Electrostatic Theory of the Acidity of the Solution in the Lumina of Viruses and Virus-Like Particles , 2023, The journal of physical chemistry. B.

[4]  Y. Levin,et al.  Theory of Charge Regulation of Colloidal Particles in Electrolyte Solutions. , 2022, Langmuir : the ACS journal of surfaces and colloids.

[5]  Maximiliano Segala,et al.  Equilibrium Conformations and Surface Charge Regulation of Spherical Polymer Brushes in Stretched Regimes , 2021, Macromolecules.

[6]  R. Podgornik,et al.  Site Correlations, Capacitance, and Polarizability From Protein Protonation Fluctuations. , 2021, The journal of physical chemistry. B.

[7]  K. Ewert,et al.  Cationic Liposomes as Vectors for Nucleic Acid and Hydrophobic Drug Therapeutics , 2021, Pharmaceutics.

[8]  Y. Levin,et al.  Reactive Monte Carlo simulations for charge regulation of colloidal particles. , 2021, The Journal of chemical physics.

[9]  Tine Curk,et al.  Charge Regulation Effects in Nanoparticle Self-Assembly. , 2020, Physical review letters.

[10]  Y. Levin,et al.  Charge regulation of colloidal particles in aqueous solutions. , 2020, Physical chemistry chemical physics : PCCP.

[11]  Y. Levin,et al.  Osmotic stress and pore nucleation in charged biological nanoshells and capsids. , 2020, Soft matter.

[12]  Y. Levin,et al.  Charge Regulation of Colloidal Particles: Theory and Simulations. , 2019, Physical review letters.

[13]  D. Frydel General theory of charge regulation within the Poisson-Boltzmann framework: Study of a sticky-charged wall model. , 2019, The Journal of chemical physics.

[14]  F. Uhlík,et al.  Simulations of ionization equilibria in weak polyelectrolyte solutions and gels. , 2019, Soft matter.

[15]  Amin Bakhshandeh Theoretical investigation of a polarizable colloid in the salt medium , 2018, Chemical Physics.

[16]  R. Podgornik,et al.  Charge regulation with fixed and mobile charged macromolecules , 2018, Current Opinion in Electrochemistry.

[17]  F. Tavares,et al.  CHEMICAL POTENTIALS OF HARD-CORE MOLECULES BY A STEPWISE INSERTION METHOD , 2018, Brazilian Journal of Chemical Engineering.

[18]  R. Podgornik,et al.  Charge regulating macro-ions in salt solutions: screening properties and electrostatic interactions. , 2018, Soft matter.

[19]  B. Venkataraman Emphasizing the Significance of Electrostatic Interactions in Chemical Bonding. , 2017 .

[20]  H. Dehghanpour,et al.  Effect of Electrostatic Interactions on Water Uptake of Gas Shales: The Interplay of Solution Ionic Strength and Electrostatic Double Layer , 2016 .

[21]  R. Podgornik,et al.  Charge regulation in ionic solutions: thermal fluctuations and Kirkwood-Schumaker interactions. , 2014, Physical review. E, Statistical, nonlinear, and soft matter physics.

[22]  H. Löwen,et al.  Coupling between bulk- and surface chemistry in suspensions of charged colloids. , 2013, The Journal of chemical physics.

[23]  Mikael Lund,et al.  Charge regulation in biomolecular solution , 2013, Quarterly Reviews of Biophysics.

[24]  J. Frechette,et al.  Electrostatic interactions to modulate the reflective assembly of nanoparticles at the oil–water interface , 2012 .

[25]  H. Zhan,et al.  Colloidal stability of negatively charged cellulose nanocrystalline in aqueous systems. , 2012, Carbohydrate polymers.

[26]  J. Anwar,et al.  Ice Ih-Water Interfacial Free Energy of Simple Water Models with Full Electrostatic Interactions. , 2012, Journal of chemical theory and computation.

[27]  I. Szleifer,et al.  Molecular Theory of Weak Polyelectrolyte Gels: The Role of pH and Salt Concentration , 2011 .

[28]  R. van Roij,et al.  Charge regulation and ionic screening of patchy surfaces. , 2010, The Journal of chemical physics.

[29]  I. Szleifer,et al.  Self-organization of grafted polyelectrolyte layers via the coupling of chemical equilibrium and physical interactions , 2010, Proceedings of the National Academy of Sciences.

[30]  P. Pincus,et al.  Attractions between like-charged surfaces with dumbbell-shaped counterions. , 2008, Physical review letters.

[31]  R. Podgornik,et al.  Strong-coupling electrostatics in the presence of dielectric inhomogeneities. , 2008, Physical review letters.

[32]  R. Brewster,et al.  Self assembly modulated by interactions of two heterogeneously charged surfaces. , 2008, Physical review letters.

[33]  M. Tirrell,et al.  Microsurface potential measurements: repulsive forces between polyelectrolyte brushes in the presence of multivalent counterions. , 2008, Langmuir.

[34]  S. Safran,et al.  Equilibrium domains on heterogeneously charged surfaces. , 2007, Langmuir : the ACS journal of surfaces and colloids.

[35]  Bo Jönsson,et al.  A New Monte Carlo Method for the Titration of Molecules and Minerals , 2006, PARA.

[36]  K. Woerpel,et al.  Electrostatic interactions in cations and their importance in biology and chemistry. , 2006, Organic & biomolecular chemistry.

[37]  Mikael Lund,et al.  On the charge regulation of proteins. , 2005, Biochemistry.

[38]  J. Ruysschaert,et al.  Formation and intracellular trafficking of lipoplexes and polyplexes. , 2005, Molecular therapy : the journal of the American Society of Gene Therapy.

[39]  H. Tsao,et al.  Interfacial tension of a salty droplet: Monte Carlo study , 2003 .

[40]  L. Williams,et al.  Surprising roles of electrostatic interactions in DNA-ligand complexes. , 2003, Biopolymers.

[41]  T. Thomas,et al.  DNA nanoparticles and development of DNA delivery vehicles for gene therapy. , 2002, Biochemistry.

[42]  Y. Levin Electrostatic correlations: from plasma to biology , 2002, cond-mat/0207086.

[43]  J. Israelachvili,et al.  Debye Length and Double-Layer Forces in Polyelectrolyte Solutions , 2002 .

[44]  M. Tirrell,et al.  Salt dependence of compression normal forces of quenched polyelectrolyte brushes , 2001 .

[45]  V. Adrian Parsegian,et al.  DNA‐Inspired Electrostatics , 2000 .

[46]  J. Goodfellow,et al.  Effect of molecular shape and electrostatic interactions on the water layer around polar and apolar groups in solution , 1999 .

[47]  S. Safran,et al.  CHARGE FLUCTUATIONS AND MEMBRANE ATTRACTIONS , 1998 .

[48]  Y. Levin,et al.  Criticality in the hard-sphere ionic fluid , 1996 .

[49]  K. Gubbins,et al.  Reactive canonical Monte Carlo : a new simulation technique for reacting or associating fluids , 1994 .

[50]  F. MacKintosh,et al.  Self-assembly of linear aggregates: the effect of electrostatics on growth , 1990 .

[51]  Ye,et al.  Mean spherical approximation (MSA) for a simple model of electrolytes. I. Theoretical foundations and thermodynamics , 1988 .

[52]  A. Hurd The electrostatic interaction between interfacial colloidal particles , 1985 .

[53]  L. Blum,et al.  Mean spherical model for asymmetric electrolytes , 1975 .

[54]  D. J. Adams,et al.  Chemical potential of hard-sphere fluids by Monte Carlo methods , 1974 .

[55]  J. Lebowitz,et al.  Mean Spherical Model Integral Equation for Charged Hard Spheres I. Method of Solution , 1972 .

[56]  B. Ninham,et al.  Electrostatic potential between surfaces bearing ionizable groups in ionic equilibrium with physiologic saline solution. , 1971, Journal of theoretical biology.

[57]  K. E. Starling,et al.  Thermodynamic Properties of a Rigid‐Sphere Fluid , 1970 .

[58]  K. E. Starling,et al.  Equation of State for Nonattracting Rigid Spheres , 1969 .

[59]  R. C. Miller,et al.  THE DIELECTRIC CONSTANT OF WATER AS A FUNCTION OF TEMPERATURE AND PRESSURE1,2 , 1961 .

[60]  H. Dintzis,et al.  STUDIES OF MOLECULAR INTERACTION IN ISOIONIC PROTEIN SOLUTIONS BY LIGHT-SCATTERING. , 1955, Proceedings of the National Academy of Sciences of the United States of America.

[61]  J. Kirkwood,et al.  The Influence of Dipole Moment Fluctuations on the Dielectric Increment of Proteins in Solution. , 1952, Proceedings of the National Academy of Sciences of the United States of America.

[62]  J. Kirkwood,et al.  Forces between Protein Molecules in Solution Arising from Fluctuations in Proton Charge and Configuration. , 1952, Proceedings of the National Academy of Sciences of the United States of America.

[63]  F. Booth,et al.  The Dielectric Constant of Water and the Saturation Effect , 1951 .

[64]  D. Ritson,et al.  The Dielectric Properties of Water and Heavy Water , 1948 .

[65]  E. Schrödinger,et al.  What is life? : the physical aspect of the living cell , 1946 .

[66]  D. Andelman Introduction to Electrostatics in Soft and Biological Matter , 2006 .

[67]  E. Wang,et al.  Size-Dependent Phase Transfer of Gold Nanoparticles from Water into Toluene by Tetraoctylammonium Cations: A Wholly Electrostatic Interaction , 2004 .

[68]  P. A. Pincus,et al.  Self-Assembly of Linear Aggregates: the Effect of Electrostatics on Growth , 1990 .

[69]  B. Honig,et al.  Electrostatic interactions in membranes and proteins. , 1986, Annual review of biophysics and biophysical chemistry.

[70]  T. Pollard,et al.  Annual review of biophysics and biophysical chemistry , 1985 .

[71]  W. Kauzmann,et al.  The Structure and Properties of Water , 1969 .

[72]  A. A. Maryott,et al.  Dielectric constant of water from 0 to 100 C , 1956 .