Electrospin Technology. The surfaces obtained through the production of nanofibers, whose diameters vary between 1.6 and 500 nm, are widely applicable thanks to the large specific surface area and the nanometric pores of the mesh.
- 1 ime technologies electrospinning
- 2 advances in electrospinning technology
- 3 aligned nanofibers based on electrospinning technology
- 4 ball electrospinning technology
- 5 biomimetic electrospinning technologies
- 6 cell electrospinning technology
- 7 electrospinning centre for nanoscience and technology
- 8 electrospinning technology for applications in supercapacitors
- 9 electrospinning technology for nanofiber production
- 10 electrospinning technology in tissue regeneration
- 11 needleless electrospinning of nanofibers technology and applications
- 12 needleless electrospinning of nanofibers technology and applications2013
- 13 polymer electrospinning technology & applications
- 14 portable electrospinning technology
- 15 portable electrospinning technology wounds
- 16 Sonic electrospinning technology
- 17 what’s electrospinning technology
ime technologies electrospinning
Micrometric cellulose nanofibers derived from wood pulp are used in papermaking. Technically, paper made with nanofibers has many advantages over paper made by mechanical grinding, such as: B. good mechanical properties and longer durability. In addition, it is possible to obtain paper that can be recycled many times like ordinary paper.
advances in electrospinning technology
Paper is a composite of cellulosic fibers that are micrometric in width. In recent years, researchers have become interested in making paper from nanometer-scale cellulosic fibers in addition to conventional fibers. The large surface area of some nanofibers allows the nanofibers to bond with neighboring fibers. This makes the paper more durable.
aligned nanofibers based on electrospinning technology
The most important environmental aspects in the production of pulp and paper are emissions to air and energy consumption. It is estimated that garbage is becoming an increasing environmental problem by the day. Studies have been carried out to find solutions to these environmental problems, to avoid and reduce emissions/waste and to reduce energy and raw material consumption.
ball electrospinning technology
According to researchers, depending on how nanofibers are made, the environmental impact of paper can be reduced. Marc Delgado-Aguilar from the University of Girona in Spain and his colleagues wanted to analyze the environmental impact of nanofibers added to paper. To do this, they repeatedly recycled standard paper using traditional mechanical recycling techniques and adding 3% by weight of cellulose nanofibers to the pulp in each cycle.
biomimetic electrospinning technologies
They tested the mechanical strength of the paper after each cycle. While the traditional recycling method rendered the pages unusable for writing after 3 recycling operations, the nanofiber papers can be recycled 7 times.
cell electrospinning technology
The disadvantages of cellulose nanofibers are the use of strong acids and oxidizing agents in today’s pulp processing. This is followed by the mechanical breakdown of cellulose fibers into nanoscale sub-units. To eliminate the need for chemical treatment, the researchers used a purely mechanical process to separate the nanofibers that costs 1 percent of the traditional process.
electrospinning centre for nanoscience and technology
Researchers also performed a preliminary life cycle assessment of the environmental impacts of the two techniques, taking into account factors such as water and energy use, human health impacts and waste generation. Although these two recycling techniques have similar environmental impacts, the number of recycling cycles for paper containing nanofibers is higher.
electrospinning technology for applications in supercapacitors
However, according to Delgado-Aguilar, new advances in nanofiber manufacturing technology will soon be available, and nanofibers will be produced with better yields that can reduce energy consumption and increase the number of possible recycling cycles.
electrospinning technology for nanofiber production
nanofiber membranes; It is used in many areas such as filtration, tissue engineering, sensor manufacture, mask and protective clothing manufacture, drug delivery, catalyst carriers, wound closure, battery polymers and composite carriers.
electrospinning technology in tissue regeneration
Among the areas of use of nanofibers we can mention things like filtration applications, battery separators, wound dressings, external coatings and respiratory membrane coating applications.
needleless electrospinning of nanofibers technology and applications
Electrospinning is a simple and inexpensive technique to obtain nanofibers/nanowebs.
needleless electrospinning of nanofibers technology and applications2013
The electrospinning machine is a machine for producing nanofiber arrays from polymer solutions in a high electric field created at high voltage by electrofabrication processes. The required high voltage is supplied from a high voltage power source to a suitable polymer solution in the range of 10-40 kV.
polymer electrospinning technology & applications
Electrospinning systems (electrospinning) are systems that allow the production of nanofiber materials (nanofibers) from polymer solutions in a high electric field generated by a high voltage power source.
portable electrospinning technology
Electrospinning technology, introduced as a technology of the future, is based on applying a controlled electrical field strength to a liquid solution. Thread-like fiber structures produced with this technique from the technical and medical field have found their way into many areas of our lives in a short time.
portable electrospinning technology wounds
According to the historical development, nanofibrous membranes are produced by stretching methods, template synthesis, phase separation methods, self-assembly and electrospray methods. Long and simple nanofibers can be obtained by stretching methods.
Sonic electrospinning technology
These properties allow electrospun materials to be used in stents used in vascular occlusions, optical applications, bone regeneration, artificial kidney development, and wound-filling materials.
what’s electrospinning technology
With this technique, fibers with diameters in the nanometer range (10 nm to 500 nm) can be obtained (Figure 1). …these nanofibers/nanowires have a very large surface area and nano-sized holes.