Electrospinning provides an effective methodology to obtain high aspect ratio polymer fibers for biomimetic applications. In this article, we evaluate the effect of topology on adhesion between aligned fibers. Polycaprolactone is electrospun using two different setups: (i) a tip collector and (ii) a flat collector. The tip collector enables the fibers to self-align. When a fiber reaches the tip collector, the next fiber is repelled by the charge they carry, forcing the fibers to deposit in a parallel arrangement. The flat collector allows the fibers to deposit at random. The adhesion between the fiber mats is measured using a T-peel test. Adhesion strength (758.7 ± 211.7 kPa) changes marginally with the peeling rate and applied pressure on ...
Dry Adhesion exists between polymer nano/microfibers. An elaborate experiment was performed to direc...
This study aims to examine the adhesion work of electrospun polymer nano- and micro-fibers. The adhe...
Electrospinning has become a valuable technique for producing micro-to-nanoscale polymeric fibers wi...
Electrospinning provides an effective methodology to obtain high aspect ratio polymer fibers for bio...
Electrospinning provides an effective methodology to obtain high aspect ratio polymer fibers for bio...
The mechanical properties of electrospun fiber networks are critical in a range of applications from...
The mechanical properties of electrospun fiber networks are critical in a range of applications from...
Adhesion between electrospun polycaprolactone (PCL) fibers was directly measured in a cross-cylinder...
Hierarchical structures as inspired from nature, such as the fibrils on insects, induce strong molec...
Inspiration from nature such as insects’ foot hairs motivates scientists to fabricate nanoscale cyli...
Adhesive force exists between polymer nano/microfibers. An elaborate experiment was performed to inv...
Adhesive force exists between polymer nano/microfibers. An elaborate experiment was performed to inv...
Due to the difficulty in handling nanofibers, little is reported and understood on the dry adhesion ...
Electrospinning is a technique that can produce fibres in the nanoscale range. This process is usefu...
Dry Adhesion exists between polymer nano/microfibers. An elaborate experiment was performed to direc...
Dry Adhesion exists between polymer nano/microfibers. An elaborate experiment was performed to direc...
This study aims to examine the adhesion work of electrospun polymer nano- and micro-fibers. The adhe...
Electrospinning has become a valuable technique for producing micro-to-nanoscale polymeric fibers wi...
Electrospinning provides an effective methodology to obtain high aspect ratio polymer fibers for bio...
Electrospinning provides an effective methodology to obtain high aspect ratio polymer fibers for bio...
The mechanical properties of electrospun fiber networks are critical in a range of applications from...
The mechanical properties of electrospun fiber networks are critical in a range of applications from...
Adhesion between electrospun polycaprolactone (PCL) fibers was directly measured in a cross-cylinder...
Hierarchical structures as inspired from nature, such as the fibrils on insects, induce strong molec...
Inspiration from nature such as insects’ foot hairs motivates scientists to fabricate nanoscale cyli...
Adhesive force exists between polymer nano/microfibers. An elaborate experiment was performed to inv...
Adhesive force exists between polymer nano/microfibers. An elaborate experiment was performed to inv...
Due to the difficulty in handling nanofibers, little is reported and understood on the dry adhesion ...
Electrospinning is a technique that can produce fibres in the nanoscale range. This process is usefu...
Dry Adhesion exists between polymer nano/microfibers. An elaborate experiment was performed to direc...
Dry Adhesion exists between polymer nano/microfibers. An elaborate experiment was performed to direc...
This study aims to examine the adhesion work of electrospun polymer nano- and micro-fibers. The adhe...
Electrospinning has become a valuable technique for producing micro-to-nanoscale polymeric fibers wi...