Add to ORKGBackground: Protein adsorption is the first of a complex series of events that regulates many phenomena at the nano-bio interface, e.g. cell adhesion and differentiation, in vivo inflammatory responses and protein crystallization. A quantitative understanding of how nanoscale morphology influences protein adsorption is strategic for providing insight into all of these processes, however this understanding has been lacking until now. Methodology/Principal Findings: Here we introduce novel methods for quantitative high-throughput characterization of protein-surface interaction and we apply them in an integrated experimental strategy, to study the adsorption of a panel of proteins on nanostructured surfaces. We show that the increase of nanosc...
Gold nanoparticles (AuNPs) have been of interest due to their biocompatibility and surface plasmon r...
PURPOSE: It is known that surface nanotopography influences cell adhesion and differentiation. Our a...
Surface nanotopography is widely employed to control cell behavior and in particular controlled diso...
inflammatory responses and protein crystallization. A quantitative understanding of how nanoscale m...
Background: Protein adsorption is the first of a complex series of events that regulates many phenom...
Surface roughness and energy significantly influence protein adsorption on to biomaterials, which, i...
Recent technological advances have allowed the development of a new generation of nanostructured mat...
Protein adsorption is the triggering event for a variety of complex phenomena occurring at the nanos...
Understanding protein adsorption onto material surfaces is a major challenge in the design of biomat...
Protein structure in nanopores is an important determinant in porous substrate utilization in biotec...
The introduction of nanoscale features brings with it a high density of surface interface boundaries...
Protein adsorption onto nanomaterials is a process of vital significance and it is commonly controll...
Many areas of biochemistry and molecular biology, both fundamental and applications-orientated, requ...
Owing to their many outstanding features, such as small size, large surface area, and cell penetrati...
Control over biointerfacial interactions in vitro and in vivo is the key to many biomedical applicat...
Gold nanoparticles (AuNPs) have been of interest due to their biocompatibility and surface plasmon r...
PURPOSE: It is known that surface nanotopography influences cell adhesion and differentiation. Our a...
Surface nanotopography is widely employed to control cell behavior and in particular controlled diso...
inflammatory responses and protein crystallization. A quantitative understanding of how nanoscale m...
Background: Protein adsorption is the first of a complex series of events that regulates many phenom...
Surface roughness and energy significantly influence protein adsorption on to biomaterials, which, i...
Recent technological advances have allowed the development of a new generation of nanostructured mat...
Protein adsorption is the triggering event for a variety of complex phenomena occurring at the nanos...
Understanding protein adsorption onto material surfaces is a major challenge in the design of biomat...
Protein structure in nanopores is an important determinant in porous substrate utilization in biotec...
The introduction of nanoscale features brings with it a high density of surface interface boundaries...
Protein adsorption onto nanomaterials is a process of vital significance and it is commonly controll...
Many areas of biochemistry and molecular biology, both fundamental and applications-orientated, requ...
Owing to their many outstanding features, such as small size, large surface area, and cell penetrati...
Control over biointerfacial interactions in vitro and in vivo is the key to many biomedical applicat...
Gold nanoparticles (AuNPs) have been of interest due to their biocompatibility and surface plasmon r...
PURPOSE: It is known that surface nanotopography influences cell adhesion and differentiation. Our a...
Surface nanotopography is widely employed to control cell behavior and in particular controlled diso...