Add to ORKGA nano-cheese-cutter is fabricated to directly measure the adhesion between two freestanding nano-fibers. A single electrospun fiber is attached to the free end of an atomic force microscope cantilever, while a similar fiber is similarly prepared on a mica substrate in an orthogonal direction. External load is applied to deform the two fibers into complementary V-shapes, and the force measurement allows the elastic modulus to be determined. At a critical tensile load, “pull-off” occurs when the adhering fibers spontaneously detach from each other, yielding the interfacial adhesion energy. Loading-unloading cycles are performed to investigate repeated adhesion-detachment and surface degradation
The future development of polymer composite materials with nanotubes or nanoscale fibers requires th...
Different forces scale differently with decreasing length scales. Van der Waals and surface tension ...
Nanofibres are found in a broad variety of hierarchical biological systems as fundamental structural...
Adhesive interactions between nano-fibers strongly influence the mechanical behavior of soft materia...
In relation to the project "BioCombs4Nanofibers" our methods to measure adhesion and antiadhesion of...
Inspiration from nature such as insects’ foot hairs motivates scientists to fabricate nanoscale cyli...
With growing interest in detachable adhesives, new materials are explored such as the types that emp...
Continuous nanofibers fabricated by the electrospinning technique have found increasing applications...
Adhesive interactions between nanofibers strongly influence the mechanical behavior of soft material...
The ability of geckos to adhere to vertical solid surfaces comes from their remarkable feet with mil...
International audienceThe physics of adhesion of one-dimensional nano structures such as nanotubes, ...
A novel method to perform nanoscale mechanical characterization of highly deformable nanofibers has ...
Ultra-high molecular weight polyethylene (UHMWPE) fiber is a new kind of high-performance fiber. Due...
Due to the difficulty in handling nanofibers, little is reported and understood on the dry adhesion ...
Hierarchical structures as inspired from nature, such as the fibrils on insects, induce strong molec...
The future development of polymer composite materials with nanotubes or nanoscale fibers requires th...
Different forces scale differently with decreasing length scales. Van der Waals and surface tension ...
Nanofibres are found in a broad variety of hierarchical biological systems as fundamental structural...
Adhesive interactions between nano-fibers strongly influence the mechanical behavior of soft materia...
In relation to the project "BioCombs4Nanofibers" our methods to measure adhesion and antiadhesion of...
Inspiration from nature such as insects’ foot hairs motivates scientists to fabricate nanoscale cyli...
With growing interest in detachable adhesives, new materials are explored such as the types that emp...
Continuous nanofibers fabricated by the electrospinning technique have found increasing applications...
Adhesive interactions between nanofibers strongly influence the mechanical behavior of soft material...
The ability of geckos to adhere to vertical solid surfaces comes from their remarkable feet with mil...
International audienceThe physics of adhesion of one-dimensional nano structures such as nanotubes, ...
A novel method to perform nanoscale mechanical characterization of highly deformable nanofibers has ...
Ultra-high molecular weight polyethylene (UHMWPE) fiber is a new kind of high-performance fiber. Due...
Due to the difficulty in handling nanofibers, little is reported and understood on the dry adhesion ...
Hierarchical structures as inspired from nature, such as the fibrils on insects, induce strong molec...
The future development of polymer composite materials with nanotubes or nanoscale fibers requires th...
Different forces scale differently with decreasing length scales. Van der Waals and surface tension ...
Nanofibres are found in a broad variety of hierarchical biological systems as fundamental structural...