Complex coacervation is a phenomenon characterized by the association of oppositely charged polyelectrolytes into micrometer-scale liquid condensates. This process is the purported first step in the formation of underwater adhesives by sessile marine organisms, as well as the process harnessed for the formation of new synthetic and protein-based contemporary materials. Efforts to understand the physical nature of complex coacervates are important for developing robust adhesives, injectable materials, or novel drug delivery vehicles for biomedical applications; however, their internal fluidity necessitates the use of in situ characterization strategies of their local dynamic properties, capabilities not offered by conventional techniques suc...
The interactions of biological macromolecules with water are fundamental to their structure, dynamic...
Aqueous solutions of oppositely charged macromolecules exhibit the ubiquitous phenomenon of coacerva...
Polyelectrolyte complexation is critical to the formation and properties of many biological and poly...
Complex coacervation is a phenomenon characterized by the association of oppositely charged polyelec...
Complex coacervate refers to a phase-separated fluid, typically of two oppositely charged polyelectr...
Many marine organisms have developed adhesives that are able to bond under water, overcoming the cha...
An exceptionally low interfacial tension of a dense fluid of concentrated polyelectrolyte complexes,...
This research presents a computational study of the dynamics of molecules in pure liquids, as well a...
This contribution highlights the recently developed microscopic picture of the effects of hydration ...
The topology and dynamics of biomolecules are intricately linked with their biological function. The...
latter part originates in previous studies of the structure and dynamics of water. It was realized s...
Polymers and their elementary subunits, called monomers, come in an immense variety of structures an...
We investigated the temperature-induced liquid–liquid phase separation (coacervation) of polyelectro...
My doctoral studies deals with model systems in soft matter. In these model systems, we address ques...
In this work, we report the systematic investigation of a multiresponsive complex coacervate-based u...
The interactions of biological macromolecules with water are fundamental to their structure, dynamic...
Aqueous solutions of oppositely charged macromolecules exhibit the ubiquitous phenomenon of coacerva...
Polyelectrolyte complexation is critical to the formation and properties of many biological and poly...
Complex coacervation is a phenomenon characterized by the association of oppositely charged polyelec...
Complex coacervate refers to a phase-separated fluid, typically of two oppositely charged polyelectr...
Many marine organisms have developed adhesives that are able to bond under water, overcoming the cha...
An exceptionally low interfacial tension of a dense fluid of concentrated polyelectrolyte complexes,...
This research presents a computational study of the dynamics of molecules in pure liquids, as well a...
This contribution highlights the recently developed microscopic picture of the effects of hydration ...
The topology and dynamics of biomolecules are intricately linked with their biological function. The...
latter part originates in previous studies of the structure and dynamics of water. It was realized s...
Polymers and their elementary subunits, called monomers, come in an immense variety of structures an...
We investigated the temperature-induced liquid–liquid phase separation (coacervation) of polyelectro...
My doctoral studies deals with model systems in soft matter. In these model systems, we address ques...
In this work, we report the systematic investigation of a multiresponsive complex coacervate-based u...
The interactions of biological macromolecules with water are fundamental to their structure, dynamic...
Aqueous solutions of oppositely charged macromolecules exhibit the ubiquitous phenomenon of coacerva...
Polyelectrolyte complexation is critical to the formation and properties of many biological and poly...