Titration of hydrophobic polyelectrolytes using Monte Carlo simulations

Abstract: The conformation and titration curves of weak (or annealed) hydrophobic polyelectrolytes have been examined using Monte Carlo simulations with screened Coulomb potentials in the grand canonical ensemble. The influence of the ionic concentration pH and presence of hydrophobic interactions has been systematically investigated. A large number of conformations such as extended, pearl-necklace, cigar-shape, and collapsed structures resulting from the subtle balance of short-range hydrophobic attractive interactions… Show more

“…[8][9][10] The overall shape of the titration curve depends on the nature of the charged polymer that is titrated. Fig.…”

“…12 The specific properties of weak polyelectrolytes have attracted considerable interest in experimental, 11,13 theoretical, 7,10,14,15 and simulation studies. 8,9,[16][17][18][19][20][21] On the other hand, strong or quenched polyelectrolytes, for example, poly(sodium styrene sulfonate), where the distribution of charges along the backbone is solely imposed by polymer synthesis dissociate completely in the total pH range accessible by experiment. The rich behavior of strong polyelectrolytes is qualitatively different from that of uncharged polymers.…”

“…Polyelectrolytes are more strongly stretched in the middle than at the ends, 14,24 which yields a weak logarithmic correction in Eqs. (7) and (8).…”

“…(1) because of electrostatic interaction between charges. The difference between the apparent and intrinsic dissociation constants, e.g., of an acid is obtained as [8][9][10][11] pK = pH − pK A 0 − log(f/(1 − f )).…”

“…30 A similar trend in Monte Carlo (MC) simulations of titration of hydrophobic polyelectrolytes have been observed where depending on the solvent quality for polymer backbone and pH − pK 0 value, a polyelectrolyte chain could be in five different conformational states: coil, globule, pearl necklace, sausage-like conformation, and fully stretched chain. 8 Raphael and Joanny have analyzed the behaviour of weakly charged quenched polyelectrolytes in a salt-free poor solvent using Khokhlov blob model. 7,27 The crucial point is that the electrostatic contribution to the chemical potential has a nonmonotonic variation with the degree of ionization.…”

Conformational transitions of a weak polyampholyte

“…[8][9][10] The overall shape of the titration curve depends on the nature of the charged polymer that is titrated. Fig.…”

“…12 The specific properties of weak polyelectrolytes have attracted considerable interest in experimental, 11,13 theoretical, 7,10,14,15 and simulation studies. 8,9,[16][17][18][19][20][21] On the other hand, strong or quenched polyelectrolytes, for example, poly(sodium styrene sulfonate), where the distribution of charges along the backbone is solely imposed by polymer synthesis dissociate completely in the total pH range accessible by experiment. The rich behavior of strong polyelectrolytes is qualitatively different from that of uncharged polymers.…”

“…Polyelectrolytes are more strongly stretched in the middle than at the ends, 14,24 which yields a weak logarithmic correction in Eqs. (7) and (8).…”

“…(1) because of electrostatic interaction between charges. The difference between the apparent and intrinsic dissociation constants, e.g., of an acid is obtained as [8][9][10][11] pK = pH − pK A 0 − log(f/(1 − f )).…”

“…30 A similar trend in Monte Carlo (MC) simulations of titration of hydrophobic polyelectrolytes have been observed where depending on the solvent quality for polymer backbone and pH − pK 0 value, a polyelectrolyte chain could be in five different conformational states: coil, globule, pearl necklace, sausage-like conformation, and fully stretched chain. 8 Raphael and Joanny have analyzed the behaviour of weakly charged quenched polyelectrolytes in a salt-free poor solvent using Khokhlov blob model. 7,27 The crucial point is that the electrostatic contribution to the chemical potential has a nonmonotonic variation with the degree of ionization.…”

Conformational transitions of a weak polyampholyte

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