Add to ORKGPolyelectrolyte hydrogel fibers can mimic the extracellular matrix and be used for tissue scaffolding. Mechanical properties of polyelectrolyte nanofibers are crucial in manipulating cell behavior, which metal ions have been found to enable tuning. While metal ions play an important role in manipulating the mechanical properties of the fibers, evaluating the mechanical properties of a single hydrated hydrogel fiber remains a challenging task and a more detailed understanding of how ions modulate the mechanical properties of individual polyelectrolyte polymers is still lacking. In this study, dark-field microscopy and persistence length analysis help directly evaluate fiber mechanics using electrospun fibers of poly(acrylic acid) (PAA), chit...
Hydrogels formed by cellulose nanofibers (CNFs) find use in a variety of applications. CNF hydrogels...
ABSTRACT: Composite nanofibers are suitable candidates for applications in biomedical engineering. T...
The tensile properties of electrospun fibers have not been widely investigated due to the difficulti...
Polyelectrolyte hydrogel fibers can mimic the extracellular matrix and be used for tissue scaffoldin...
Polyelectrolyte based hydrogel fibers can mimic extracellular matrix and have applications such as d...
Hydrogels, porous hydrated polymeric materials, are being increasingly used in biomedical applicatio...
<p>Since its inception, the field of tissue engineering has sought to rebuild the complexity of norm...
Designing engineering materials with high stiffness and high toughness is challenging as stiff mater...
This study examines the effects of electrospun polycaprolactone (PCL) fiber density and strain rate ...
The mechanical properties of electrospun nanofiber membranes are critical for their applications. A ...
Continuous nanofibers produced by electrospinning are an emerging class of nanomaterials. Despite hi...
Due to its low cost, biocompatibility and slow bioresorption, poly-ε-caprolactone (PCL) continues to...
Molecular self-assembly is a powerful technique for developing novel nanostructures by using noncova...
A novel method to perform nanoscale mechanical characterization of highly deformable nanofibers has ...
The mechanical response of biological materials reflects deformation mechanisms occurring within a h...
Hydrogels formed by cellulose nanofibers (CNFs) find use in a variety of applications. CNF hydrogels...
ABSTRACT: Composite nanofibers are suitable candidates for applications in biomedical engineering. T...
The tensile properties of electrospun fibers have not been widely investigated due to the difficulti...
Polyelectrolyte hydrogel fibers can mimic the extracellular matrix and be used for tissue scaffoldin...
Polyelectrolyte based hydrogel fibers can mimic extracellular matrix and have applications such as d...
Hydrogels, porous hydrated polymeric materials, are being increasingly used in biomedical applicatio...
<p>Since its inception, the field of tissue engineering has sought to rebuild the complexity of norm...
Designing engineering materials with high stiffness and high toughness is challenging as stiff mater...
This study examines the effects of electrospun polycaprolactone (PCL) fiber density and strain rate ...
The mechanical properties of electrospun nanofiber membranes are critical for their applications. A ...
Continuous nanofibers produced by electrospinning are an emerging class of nanomaterials. Despite hi...
Due to its low cost, biocompatibility and slow bioresorption, poly-ε-caprolactone (PCL) continues to...
Molecular self-assembly is a powerful technique for developing novel nanostructures by using noncova...
A novel method to perform nanoscale mechanical characterization of highly deformable nanofibers has ...
The mechanical response of biological materials reflects deformation mechanisms occurring within a h...
Hydrogels formed by cellulose nanofibers (CNFs) find use in a variety of applications. CNF hydrogels...
ABSTRACT: Composite nanofibers are suitable candidates for applications in biomedical engineering. T...
The tensile properties of electrospun fibers have not been widely investigated due to the difficulti...