Interplay of Coulomb interaction energy, free ion entropy, and conformational elasticity is a fascinating aspect in polyelectrolytes (PEs). We develop a theory for complexation of two oppositely charged PEs, a process known to be the precursor to the formation of complex coacervates in PE solutions, to explore the underlying thermodynamics of complex formation, at low salts. Explicit calculation of the free energy of complexation and its components indicates that the entropy of free counterions and salt ions and the Coulomb enthalpy of bound ion-pairs dictate the equilibrium of PE complexation. This helps decouple the self-consistent dependency of charge and size of the uncomplexed parts of the polyions, derive an analytical expression for ...
Aqueous solutions of oppositely charged polyelectrolytes can undergo liquid–liquid phase separation ...
Coacervates are dense phases formed by mixing polyelectrolytes with oppositely charged species, such...
Polyelectrolyte complexation (PEC) is an associative phase separation process initiated by mixing of...
A polyelectrolyte complex (PEC) of oppositely charged linear chains is considered within the Random ...
Polymeric systems exhibit interesting macroscopic properties under different thermodynamic condition...
Polyelectrolytes may be classified into two primary categories (strong and weak) depending on how th...
When oppositely charged polyelectrolytes are mixed in water, attraction between oppositely charged g...
Complex coacervation is an associative liquid-liquid phase separation of oppositely-charged polyelec...
We address the effects of chain connectivity on electrostatic fluctuations in polyelectrolyte soluti...
Driving forces for association between oppositely charged biological or synthetic polymers in aqueou...
Ionic complexes of polyelectrolytes with molecules of opposite polarity are ubiquitous and important...
Polyuronates such as pectate and alginate are very well-known examples of biological polyelectrolyte...
In the past decade, polyelectrolyte complexes (PECs) have received considerable attention as novel t...
We perform a general thermodynamic analysis for the salt partitioning behavior in the coexisting ph...
We develop a scaling model of coacervates formed by oppositely charged polyelectrolytes. The intramo...
Aqueous solutions of oppositely charged polyelectrolytes can undergo liquid–liquid phase separation ...
Coacervates are dense phases formed by mixing polyelectrolytes with oppositely charged species, such...
Polyelectrolyte complexation (PEC) is an associative phase separation process initiated by mixing of...
A polyelectrolyte complex (PEC) of oppositely charged linear chains is considered within the Random ...
Polymeric systems exhibit interesting macroscopic properties under different thermodynamic condition...
Polyelectrolytes may be classified into two primary categories (strong and weak) depending on how th...
When oppositely charged polyelectrolytes are mixed in water, attraction between oppositely charged g...
Complex coacervation is an associative liquid-liquid phase separation of oppositely-charged polyelec...
We address the effects of chain connectivity on electrostatic fluctuations in polyelectrolyte soluti...
Driving forces for association between oppositely charged biological or synthetic polymers in aqueou...
Ionic complexes of polyelectrolytes with molecules of opposite polarity are ubiquitous and important...
Polyuronates such as pectate and alginate are very well-known examples of biological polyelectrolyte...
In the past decade, polyelectrolyte complexes (PECs) have received considerable attention as novel t...
We perform a general thermodynamic analysis for the salt partitioning behavior in the coexisting ph...
We develop a scaling model of coacervates formed by oppositely charged polyelectrolytes. The intramo...
Aqueous solutions of oppositely charged polyelectrolytes can undergo liquid–liquid phase separation ...
Coacervates are dense phases formed by mixing polyelectrolytes with oppositely charged species, such...
Polyelectrolyte complexation (PEC) is an associative phase separation process initiated by mixing of...