<p>Movie presents dissolution of nanofibers polymer shell. Highly flexible nanofilaments can be observed.</p> <p> </p> <p>For more information please visit: http://fluid.ippt.pan.pl/nanofibres/ and Hydrogel nanofilaments via core-shell electrospinning by Pawel Nakielski</p
The diameters of nanofibers, fabricated from bioresorbable polymers Poly (L-lactic acid) (PLLA), Pol...
We report on the unexpected finding of nanoscale fibers with a diameter down to 25 nm that emerge fr...
In tissue engineering, nanofibrous scaffolds can achieve better biological responses than microfibro...
<p>a) SEM micrograph presenting ribbon-like core-shell PLCL/PAAm nanofibre (EA3) (see file <a href="...
Recent biomedical hydrogels applications require the development of nanostructures with controlled d...
<p>Data presents hydrodynamic of the nanofilaments with flow. Data presented for only one compositio...
We investigated and monitored in situ the wetting and dissolution properties of polymeric nanofibers...
<p>SEM figures presenting nanofibers on the microscope slides for three different compositions.</p> ...
This photograph originally appeared in the 2017 Research student photography and image competition h...
<p>Figures presents nanofilaments Brownian motion in water. Data presents images for 9 different nan...
Electrospinning is a very useful technique to produce polymeric nanofibers. It involves fast-drawing...
Polymer nanofibers, with diameters in the nanometer range, possess larger surface areas per unit mas...
In electrospinning, polymer nanofibers are formed by the creation and elongation of an electrified f...
Polymeric nanofibers are rapidly finding their place in nanomaterials technology. Electrospinning ma...
Nanofiber-reinforced hydrogels have recently gained attention in biomedical engineering. Such three-...
The diameters of nanofibers, fabricated from bioresorbable polymers Poly (L-lactic acid) (PLLA), Pol...
We report on the unexpected finding of nanoscale fibers with a diameter down to 25 nm that emerge fr...
In tissue engineering, nanofibrous scaffolds can achieve better biological responses than microfibro...
<p>a) SEM micrograph presenting ribbon-like core-shell PLCL/PAAm nanofibre (EA3) (see file <a href="...
Recent biomedical hydrogels applications require the development of nanostructures with controlled d...
<p>Data presents hydrodynamic of the nanofilaments with flow. Data presented for only one compositio...
We investigated and monitored in situ the wetting and dissolution properties of polymeric nanofibers...
<p>SEM figures presenting nanofibers on the microscope slides for three different compositions.</p> ...
This photograph originally appeared in the 2017 Research student photography and image competition h...
<p>Figures presents nanofilaments Brownian motion in water. Data presents images for 9 different nan...
Electrospinning is a very useful technique to produce polymeric nanofibers. It involves fast-drawing...
Polymer nanofibers, with diameters in the nanometer range, possess larger surface areas per unit mas...
In electrospinning, polymer nanofibers are formed by the creation and elongation of an electrified f...
Polymeric nanofibers are rapidly finding their place in nanomaterials technology. Electrospinning ma...
Nanofiber-reinforced hydrogels have recently gained attention in biomedical engineering. Such three-...
The diameters of nanofibers, fabricated from bioresorbable polymers Poly (L-lactic acid) (PLLA), Pol...
We report on the unexpected finding of nanoscale fibers with a diameter down to 25 nm that emerge fr...
In tissue engineering, nanofibrous scaffolds can achieve better biological responses than microfibro...
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