Add to ORKGA detailed understanding of charge density and its origins during the electrospinning process is desirable for developing new electrospinnable polymer-solvent systems and ensuring mathematical models of the process are accurate. In this work, two different approaches were taken to alter the charge density in order to measure its effect on the Taylor cone, mass deposition rate and initial jet diameter. It was found that an increase in charge density results in a decrease in the mass deposition rate and initial jet diameter. A theory is proposed for this behaviour in that an increase in charge density leads to the tip of the Taylor cone forming a smaller radius of curvature resulting in the concentration of electric stresses at the tip. This ...
Electrospun nanofiber scaffolds have been shown to accelerate the maturation, improve the growth, an...
In this paper the effects of 13 material and operating parameters on electrospun fiber diameters are...
In this paper the effects of 13 material and operating parameters on electrospun fiber diameters are...
A detailed understanding of charge density and its origins during the electrospinning process is des...
This paper suggests an approximate formula predicting the electric current in the electrospinning...
Electrospinning has become a widely implemented technique for the generation of nonwoven mats that a...
Poly(vinyl alcohol) (PVOH) was electrospun using different methods to charge the polymer solution. A...
With the rapid development of electrospinning, how to control the spinning drawing process is becomi...
The electrospinning process uses electrical force to produce nanofibers. A charged droplet acquires ...
Electrospinning is a method of using high voltage electric fields to transform polymer solutions int...
Fibres with a diameter in the nanometer range were electrospun from aqueous poly(vinyl alcohol) (PVO...
The electric currents between electrodes in the electrospinning process are based on the movement of...
In this study, we shed light on the coupling between voltage (V) and tip-to-collector distance (T) i...
Electrospinning produces submicron fibers from a wide range of polymer/solvent systems that enable a...
An auxiliary electrode introduced in traditional spinneret electrospinning is an effective and power...
Electrospun nanofiber scaffolds have been shown to accelerate the maturation, improve the growth, an...
In this paper the effects of 13 material and operating parameters on electrospun fiber diameters are...
In this paper the effects of 13 material and operating parameters on electrospun fiber diameters are...
A detailed understanding of charge density and its origins during the electrospinning process is des...
This paper suggests an approximate formula predicting the electric current in the electrospinning...
Electrospinning has become a widely implemented technique for the generation of nonwoven mats that a...
Poly(vinyl alcohol) (PVOH) was electrospun using different methods to charge the polymer solution. A...
With the rapid development of electrospinning, how to control the spinning drawing process is becomi...
The electrospinning process uses electrical force to produce nanofibers. A charged droplet acquires ...
Electrospinning is a method of using high voltage electric fields to transform polymer solutions int...
Fibres with a diameter in the nanometer range were electrospun from aqueous poly(vinyl alcohol) (PVO...
The electric currents between electrodes in the electrospinning process are based on the movement of...
In this study, we shed light on the coupling between voltage (V) and tip-to-collector distance (T) i...
Electrospinning produces submicron fibers from a wide range of polymer/solvent systems that enable a...
An auxiliary electrode introduced in traditional spinneret electrospinning is an effective and power...
Electrospun nanofiber scaffolds have been shown to accelerate the maturation, improve the growth, an...
In this paper the effects of 13 material and operating parameters on electrospun fiber diameters are...
In this paper the effects of 13 material and operating parameters on electrospun fiber diameters are...