Add to ORKGAnew and effective electrospinning method has been developed for producing aligned polymer nanofibers. The conventional electrospinning technique has been modified to fabricate nanofibers as uniaxially aligned array. The key to the success of this technique is the creation of a rotating jet by using a cylindrical collector in which the needle tip is located at its center. The unique advantage of this method among the current methods is the ability of apparatus to weave continuously nanofibers in uniaxially aligned form. Fibers produced by this method are well-aligned, with several meters in length, and can be spread over a large area. We have employed a voltage range of (6-16 kV), a collector diameter in the range of 20-50 cm and various co...
A dual-field method is described to produce aligned fibers by electrospinning. By applying a seconda...
Carbon nanofiber has been gaining traction due to its broad application. Nanofibers have been succes...
The paper presents a new way for producing fibrous mats with aligned micro- and nano-fibres by elect...
Electrospinning is a known process to produce nanofibers through electrostatic forces. In a typical ...
In this Master of Science project, a novel technique of producing aligned nanofibers has been create...
Electrospinning is a simple and versatile method to fabricate microfibers and nanofibers composed of...
The process of electrospinning produces polymeric fibers with diameters ranging from the micrometer ...
Electrospinning is an emerging technology producing continuous nanofibers with diameters in the rang...
In the electrospinning process, unstructured nanofiber mats are produced by oriented fluid jets with...
Uniaxial alignment of electrospun fibers can provide a useful approach to develop novel functional n...
An electrospinning procedure allowing the spinning of a straight jet of polymer solution was develop...
The aim of the thesis is to investigate yarn spinning from electrospun nanofibres. The concepts of s...
An improved bubble-electrospinning, consisting of a cone shaped air nozzle, a copper solution reserv...
A dual-field method is described to produce aligned fibers by electrospinning. By applying a seconda...
Electrospinning is a simple, versatile, and scalable method of producing polymeric nanofibres from a...
A dual-field method is described to produce aligned fibers by electrospinning. By applying a seconda...
Carbon nanofiber has been gaining traction due to its broad application. Nanofibers have been succes...
The paper presents a new way for producing fibrous mats with aligned micro- and nano-fibres by elect...
Electrospinning is a known process to produce nanofibers through electrostatic forces. In a typical ...
In this Master of Science project, a novel technique of producing aligned nanofibers has been create...
Electrospinning is a simple and versatile method to fabricate microfibers and nanofibers composed of...
The process of electrospinning produces polymeric fibers with diameters ranging from the micrometer ...
Electrospinning is an emerging technology producing continuous nanofibers with diameters in the rang...
In the electrospinning process, unstructured nanofiber mats are produced by oriented fluid jets with...
Uniaxial alignment of electrospun fibers can provide a useful approach to develop novel functional n...
An electrospinning procedure allowing the spinning of a straight jet of polymer solution was develop...
The aim of the thesis is to investigate yarn spinning from electrospun nanofibres. The concepts of s...
An improved bubble-electrospinning, consisting of a cone shaped air nozzle, a copper solution reserv...
A dual-field method is described to produce aligned fibers by electrospinning. By applying a seconda...
Electrospinning is a simple, versatile, and scalable method of producing polymeric nanofibres from a...
A dual-field method is described to produce aligned fibers by electrospinning. By applying a seconda...
Carbon nanofiber has been gaining traction due to its broad application. Nanofibers have been succes...
The paper presents a new way for producing fibrous mats with aligned micro- and nano-fibres by elect...